HP 39G/40G
GRAPHING CALCULATOR
USER’S GUIDE
Version 1.1
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Contents
Preface
Manual conventions............................................................................... P-1
Notice .................................................................................................... P-2
1 Getting started
On/off, cancel operations........................................................................1-1
The display .............................................................................................1-2
The keyboard..........................................................................................1-3
Menus .....................................................................................................1-8
Input forms .............................................................................................1-9
Mode settings..........................................................................................1-9
Setting a mode ................................................................................1-11
Aplets (E–lessons)................................................................................1-11
Aplet library....................................................................................1-15
Aplet views .....................................................................................1-15
Aplet view configuration ................................................................1-17
Mathematical calculations....................................................................1-18
Using fractions......................................................................................1-24
Complex numbers.................................................................................1-27
Catalogs and editors .............................................................................1-28
Differences between the HP 38G and the HP 39G/40G.......................1-29
2 Aplets and their views
Aplet views.............................................................................................2-1
About the Symbolic view .................................................................2-1
Defining an expression (Symbolic view)..........................................2-1
Evaluating expressions .....................................................................2-3
About the Plot view ..........................................................................2-5
Setting up the plot (Plot view setup).................................................2-5
Exploring the graph ..........................................................................2-7
Other views for scaling and splitting the graph ..............................2-14
About the numeric view..................................................................2-16
Setting up the table (numeric view setup) ......................................2-17
Exploring the table of numbers.......................................................2-18
Building your own table of numbers ..............................................2-19
“Build Your Own” menu keys........................................................2-20
Example: plotting a circle...............................................................2-21
Contents
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3 Function aplet
About the Function aplet ........................................................................3-1
Getting started with the Function aplet.............................................3-1
Function aplet interactive analysis .........................................................3-8
Plotting a piecewise defined function example ..............................3-11
4 Parametric aplet
About the Parametric aplet .....................................................................4-1
Getting started with the Parametric aplet..........................................4-1
5 Polar aplet
Getting started with the polar aplet...................................................5-1
6 Sequence aplet
About the Sequence aplet .......................................................................6-1
Getting started with the Sequence aplet............................................6-1
7 Solve aplet
About the Solve aplet .............................................................................7-1
Getting started with the Solve aplet..................................................7-2
Use an initial guess.................................................................................7-5
Interpreting results..................................................................................7-6
Plotting to find guesses...........................................................................7-8
Using variables in equations.................................................................7-10
8 Statistics aplet
About the Statistics aplet........................................................................8-1
Getting started with the Statistics aplet.............................................8-1
Entering and editing statistical data........................................................8-5
Defining a regression model (2VAR).............................................8-11
Computed statistics...............................................................................8-13
Plotting .................................................................................................8-15
Plot types.........................................................................................8-16
Fitting a curve to 2VAR data..........................................................8-17
Setting up the plot (Plot setup view)...............................................8-18
Trouble-shooting a plot...................................................................8-19
Exploring the graph ........................................................................8-20
Calculating predicted values...........................................................8-21
ii
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9 Inference aplet
About the Inference aplet .......................................................................9-1
Getting started with the Inference aplet............................................9-2
Importing Sample Statistics from the Statistics aplet.......................9-5
Hypothesis tests......................................................................................9-9
One–Sample Z–Test .........................................................................9-9
Two–Sample Z–Test.......................................................................9-10
One–Proportion Z–Test ..................................................................9-11
Two–Proportion Z–Test..................................................................9-12
One–Sample T–Test .......................................................................9-13
Two–Sample T–Test.......................................................................9-14
Confidence intervals.............................................................................9-16
One–Sample Z–Interval..................................................................9-16
Two–Sample Z–Interval .................................................................9-17
One–Proportion Z–Interval.............................................................9-18
Two–Proportion Z–Interval ............................................................9-19
One–Sample T–Interval..................................................................9-20
Two–Sample T–Interval .................................................................9-21
10 Using mathematical functions
Math functions......................................................................................10-1
The MATH menu............................................................................10-1
Math functions by category..................................................................10-3
Keyboard functions.........................................................................10-4
Calculus functions...........................................................................10-7
Complex number functions.............................................................10-8
Constants.........................................................................................10-9
Hyperbolic trigonometry.................................................................10-9
List functions ................................................................................10-10
Loop functions..............................................................................10-11
Matrix functions............................................................................10-11
Polynomial functions ....................................................................10-12
Probability functions.....................................................................10-13
Real-number functions..................................................................10-15
Statistics-Two ...............................................................................10-18
Symbolic functions .......................................................................10-19
Test functions................................................................................10-20
Trigonometry functions ................................................................10-21
Symbolic calculations.........................................................................10-22
Finding derivatives .......................................................................10-23
Contents
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11 Variables and memory management
Introduction ..........................................................................................11-1
Storing and recalling variables .............................................................11-2
The VARS menu ..................................................................................11-4
Memory Manager.................................................................................11-9
12 Matrices
Introduction ..........................................................................................12-1
Creating and storing matrices...............................................................12-2
Working with matrices .........................................................................12-4
Matrix arithmetic..................................................................................12-6
Solving systems of linear equations................................................12-8
Matrix functions and commands ..........................................................12-9
Argument conventions..................................................................12-10
Matrix functions............................................................................12-10
Examples ............................................................................................12-13
13 Lists
Creating lists.........................................................................................13-1
Displaying and editing lists ..................................................................13-4
Deleting lists ...................................................................................13-6
Transmitting lists ............................................................................13-6
List functions........................................................................................13-7
Finding statistical values for list elements..........................................13-10
14 Notes and sketches
Introduction ..........................................................................................14-1
Aplet note view.....................................................................................14-1
Aplet sketch view .................................................................................14-3
The notepad ..........................................................................................14-6
iv
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15 Programming
Introduction ..........................................................................................15-1
Program catalog ..............................................................................15-2
Creating and editing programs .............................................................15-4
Using programs ....................................................................................15-7
Working with programs........................................................................15-8
About customizing an aplet..................................................................15-9
Aplet naming convention..............................................................15-10
Customizing an aplet example......................................................15-10
Programming commands....................................................................15-14
Aplet commands ...........................................................................15-14
Branch commands.........................................................................15-17
Drawing commands ......................................................................15-19
Graphic commands .......................................................................15-20
Loop commands............................................................................15-22
Matrix commands .........................................................................15-23
Print commands ............................................................................15-25
Prompt commands ........................................................................15-25
Stat-One and Stat-Two commands ...............................................15-29
Storing and retrieving variables in programs................................15-30
Plot-view variables .......................................................................15-30
Symbolic-view variables...............................................................15-37
Numeric-view variables................................................................15-39
Note variables ...............................................................................15-42
Sketch variables ............................................................................15-42
16 Extending aplets
Creating new aplets based on existing aplets .......................................16-1
Resetting an aplet............................................................................16-4
Annotating an aplet with notes .......................................................16-4
Annotating an aplet with sketches ..................................................16-4
Downloading e-lessons from the web ..................................................16-4
Sending and receiving aplets................................................................16-5
Sorting items in the aplet library menu list ..........................................16-6
Contents
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Reference information
Regulatory information .........................................................................R-1
USA .................................................................................................R-1
Canada .............................................................................................R-1
LED safety.............................................................................................R-2
Warranty................................................................................................R-2
CAS .......................................................................................................R-4
Resetting the HP 39G/40G ....................................................................R-4
To erase all memory and reset defaults ...........................................R-5
If the calculator does not turn on ....................................................R-5
Glossary.................................................................................................R-6
Operating details....................................................................................R-7
Batteries ...........................................................................................R-7
Menu maps of the VARS menu.............................................................R-8
Home variables......................................................................................R-8
Function aplet variables.........................................................................R-9
Parametric aplet variables....................................................................R-10
Polar aplet variables ............................................................................R-11
Sequence aplet variables......................................................................R-12
Solve aplet variables............................................................................R-13
Statistics aplet variables ......................................................................R-14
Menu maps of the MATH menu .........................................................R-15
Math functions ...............................................................................R-15
Program constants..........................................................................R-17
Program commands .......................................................................R-18
Selected status messages .....................................................................R-19
Index
vi
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Preface
The HP 39G/40G is a feature-rich graphing calculator. It is
also a powerful mathematics learning tool. The HP 39G/40G
is designed so that you can use it to explore mathematical
functions and their properties.
You can get more information on the HP 39G/40G from
Hewlett-Packard’s Calculators web site. You can download
customized aplets from the web site and load them onto your
calculator. Customized aplets are special applications
developed to perform certain functions, and to demonstrate
mathematical concepts.
Hewlett Packard’s Calculators web site can be found at:
www.hp.com/calculators
Manual conventions
The following conventions are used in this manual to
represent the keys that you press and the menu options that
you choose to perform the described operations.
•
Key presses are represented as follows:
, etc.
Shift keys, that is the key functions that you access by
,
,
•
pressing the key first, are represented as follows:
CLEAR,
MODES,
ACOS, etc.
•
•
Numbers and letters are represented normally, as follows:
5, 7, A, B, etc.
Menu options, that is, the functions that you select using
the menu keys at the top of the keypad are represented as
follows:
,ꢀ
,
.
•
•
Input form fields and choose list items are represented as
follows:
Function, Polar, Parametric
Your entries as they appear on the command line or
within input forms are represented as follows:
2
2*X -3X+5
Preface
P-1
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Notice
This manual and any examples contained herein are provided
as-is and are subject to change without notice. Except to the
extent prohibited by law, Hewlett-Packard Company makes
no express or implied warranty of any kind with regard to this
manual and specifically disclaims the implied warranties and
conditions of merchantaiblity and fitness for a particular
purpose and Hewlett-Packard Company shall not be liable for
any errors or for incidental or consequential damage in
connection with the furnishing, performance or use of this
manual and the examples herein.
Hewlett-Packard Company 2000, all rights reserved.
The programs that control your HP 39G/40G are copyrighted
and all rights are reserved. Reproduction, adaptation or
translation of those programs without prior written permission
of Hewlett Packard is prohibited.
P-2
Preface
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1
Getting started
On/off, cancel operations
To turn on
To cancel
Press
to turn on the calculator.
When the calculator is on, the
operation.
key cancels the current
To turn off
Press
OFF to turn the calculator off.
To save power, the calculator turns itself off after several
minutes of inactivity. All stored and displayed information is
saved.
If you see the ((•)) annunciator or the Low Batmessage,
then the calculator needs fresh batteries.
HOME
HOME is the calculator’s home view and is common to all
aplets. If you want to perform calculations, or you want to quit
the current activity (such as an aplet, a program, or an editor),
press
. All mathematical functions are available in the
HOME. The name of the current aplet is displayed in the title
of the home view.
Getting started
1-1
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The display
To adjust the
contrast
Simultaneously press
decrease) the contrast.
and
(or
) to increase (or
To clear the
display
•
•
Press CANCEL to clear the edit line.
Press
CLEAR to clear the edit line and the display
history.
Parts of the
display
Title
History
Edit line
Menu key
labels
Menu key or soft key labels. The labels for the menu keys’
current meanings.
this picture. “Press
is the label for the first menu key in
” means to press the first menu key,
that is, the leftmost top-row key on the calculator keyboard.
Edit line. The line of current entry.
History. The HOME display (
) shows up to four lines
of history: the most recent input and output. Older lines scroll
off the top of the display but are retained in memory.
Title. The name of the current aplet is displayed at the top of
the HOME view. RAD, GRD, DEG specify whether Radians,
Grads or Degrees angle mode is set for HOME. The 'ꢀand (ꢀ
symbolsꢀindicate whether there is more history in the HOME
display. Press the *e,ꢀand *k,ꢀto scroll in the HOME display.
N O T E
The HP 40G is packaged with a computerized algebra system
(CAS). Press
This User’s Guide contains images from the HP39G and do
not display the menu key label.
to access the computerized algebra system.
1-2
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Annunciators. Annunciators are symbols that appear above
the title bar and give you important status information.
Annunciator
Description
Shift in effect for next keystroke. To
cancel, press
again.
α
Alpha in effect for next keystroke.
To cancel, press
Low battery power.
Busy.
again.
((•))
Data is being transferred via infrared
or cable.
The keyboard
Menu keys
Menu key
labels
Menu keys
Aplet control
keys
Cursor
keys
Alpha key
Shift key
Enter key
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1-3
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•
•
On the calculator keyboard, the top row of keys are
called menu keys. Their meanings depend on the
context—that’s why their tops are blank. The menu keys
are sometimes called “soft keys”.
The bottom line of the display shows the labels for the
menu keys’ current meanings.
Aplet control keys
The aplet control keys are:
Key Meaning
Displays the Symbolic view for the
current aplet. See “Symbolic view” on
page 1-15.
Displays the Plot view for the current
aplet. See “Plot view” on page 1-15.
Displays the Numeric view for the
current aplet. See “Numeric view” on
page 1-15.
Displays the HOME view. See
“HOME” on page 1-1.
Displays the Aplet Library menu. See
“Aplet library” on page 1-15.
Displays the VIEWS menu. See “Aplet
views” on page 1-15.
1-4
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Entry/Edit keys
The entry and edit keys are:
Key
Meaning
Cancels the current operation if the
calculator is on by pressing
(CANCEL)
.
Pressing
, then OFF turns the
calculator off.
Accesses the function printed in blue
above a key.
Returns to the HOME view, for
performing calculations.
Accesses the alphabetical characters
printed in orange below a key. Hold
down to enter a string of characters.
Enters an input or executes an
operation. In calculations,
acts
like “=”. When
as a menu key,
as pressing
or
is present
acts the same
.
or
Enters a negative number. To enter
–25, press 25. Note: this is not the
same operation that the subtract
button performs ( ).
5
Enters the independent variable by
inserting X, T, θ, or N into the edit line,
depending on the current active aplet.
Deletes the character under the cursor.
Acts as a backspace key if the cursor is
at the end of the line.
CLEAR
Clears all data on the screen. On a
settings screen, for example Plot
Setup,
CLEAR returns allsettings
to their default values.
*>,, *A,, *k,,
Moves the cursor around the display.
Press
first to move to the
*e,
beginning, end, top or bottom.
CHARS
Displays a menu of all available
characters. To type one, use the arrow
keys to highlight it, and press
select multiple characters, select each
and press , then press
. To
.
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Shifted keystrokes
There are two shift keys that you use to access the operations
and characters printed above the keys:
and
.
Key
Description
Press the
key to access the
operations printed in blue above the
keys. For instance, to access the Modes
screen, press , then press
.
(MODES is labelled in blue above the
key). You do not need to hold
down
This action is depicted in this manual as
“press
when you press HOME.
MODES.”
To cancel a shift, press
again.
The alphabetic keys are also shifted
keystrokes. For instance, to type Z, press
Z. (The letters are printed in
orange to the lower right of each key.)
To cancel Alpha, press
again.
For a lower case letter, press
.
For a string of letters, hold down
while typing.
HELPWITH
Example
The HP 39G built-in help is available in HOME only. It
provides syntax help for built-in math functions.
Access the HELPWITH command by pressing
SYNTAX
and then the math key for which you require syntax help.
Press
SYNTAX
ꢁ
Note: Remove the left parenthesis from built-in
commands such as sine, cosine, and tangent before
invoking the HELPWITH command.
1-6
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Math keys
HOME (
) is the place to do calculations.
Keyboard keys. The most common operations are available
from the keyboard, such as the arithmetic (like
) and
to
trigonometric (like
) functions. Press
complete the operation:
√ 256
displays 16.
.
MATH menu. Press
to open the MATH menu. The
MATH menu is a
comprehensive list of math
functions that do not appear on
the keyboard. It also includes
categories for all other functions and constants. The functions
are grouped by category, ranging in alphabetical order from
Calculus to Trigonometry.
–
The arrow keys scroll through the list (*e,, *k,) and
move from the category list in the left column to the
item list in the right column (*>,, *A,).
–
–
–
Press
line.
to insert the selected command onto the edit
Press
to dismiss the MATH menu without
selecting a command.
Pressing
displays the list of Program
Constants. You can use these in programs that you
develop.
–
Pressing
MATH menu.
takes you to the beginning of the
See “Math functions by category” on page 10-3 for details of
the math functions.
H I N T
When using the MATH menu, or any menu on the HP 39G/
40G, pressing an alpha key takes you straight to the first menu
option beginning with that alpha character. With this method,
you do not need to press
first. Just press the key that
corresponds to the command’s beginning alpha character.
Program
commands
Pressing
CMDS displays the list of Program Commands.
See “Programming commands” on page 15-14.
Inactive keys
If you press a key that does not operate in the current context,
!
a warning symbol like this
appears. There is no beep.
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Menus
A menu offers you a choice of
items. Menus are displayed in
one or two columns.
•
•
The arrow in the display
means more items below.
The arrow in the display
means more items above.
To search a menu
•
•
Press *e, or *k, to scroll through the list. If you press
*e, or
or the beginning of the list. Highlight the item you want
to select, then press (or ).
*k,, you’ll go all the way to the end
If there are two columns, the left column shows general
categories and the right column shows specific contents
within a category. Highlight a general category in the left
column, then highlight an item in the right column. The
list in the right column changes when a different category
is highlighted. Press
or
when you have
highlighted your selection.
•
•
To speed-search a list (with no edit line), type the first
letter of the word. For example, to find the Matrix
category in
, press , the Alpha “M” key.
To go up a page, you can press
*>,. To go down a
page, press
*A,.
To cancel a menu
Press
operation.
(for CANCEL) or
. This cancels the current
1-8
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Input forms
An input form shows several fields of information for you to
examine and specify. After highlighting the field to edit, you
can enter or edit a number (or expression). You can also select
options from a list (
). Some input forms include items
to check ( ). See below for an example of an input form.
Reset input
form values
To reset a default field value in an input form, move the cursor
to that field and press
the input form, press
. To reset all default field values in
CLEAR.
Mode settings
You use the Modes input form to set the modes for HOME.
H I N T
Although the numeric setting in Modes affects only HOME,
the angle setting controls HOME and the current aplet. The
angle setting selected in Modes is the angle setting used in
both HOME and current aplet. To further configure an aplet,
you use the SETUP keys (
and
).
Press
Setting
MODES to access the HOME MODES input form.
Options
Angle
Angle values are:
Measure
Degrees. 360 degrees in a circle.
Radians. 2π radians in a circle.
Grads. 400 grads in a circle.
The angle mode you set is the angle
setting used in both HOME and the
current aplet. This is done to ensure that
trigonometric calculations done in the
current aplet and HOME give the same
result.
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Setting
Options (Continued)
Number
Format
The number format mode you set is the
number format used in both HOME and
the current aplet.
Standard. Full-precision display.
Fixed. Displays results rounded to a
number of decimal places. Example:
123.456789 becomes 123.46 in Fixed 2
format.
Scientific. Displays results with an
exponent, one digit to the left of the
decimal point, and the specified number
of decimal places. Example: 123.456789
becomes 1.23E2 in Scientific 2 format.
Engineering. Displays result with an
exponent that is a multiple of 3, and the
specified number of significant digits
beyond the first one. Example: 123.456E7
becomes 1.23E9 in Engineering 2 format.
Fraction. Displays results as fractions
based on the specified number of decimal
places. Examples: 123.456789 becomes
123 in Fraction 2 format, and .333
becomes 1/3 and 0.142857 becomes 1/7.
See “Using fractions” on page 1-24.
Decimal
Mark
Dot or Comma. Displays a number as
12456.98 (Dot mode) or as 12456,98
(Comma mode). Dot mode uses commas
to separate elements in lists and matrices,
and to separate function arguments.
Comma mode uses periods (dot) as
separators in these contexts.
1-10
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Setting a mode
This example demonstrates how to change the angle measure
from the default mode, radians, to degrees for the current
aplet. The procedure is the same for changing number format
and decimal mark modes.
1. Press
form.
MODES to open the HOME MODES input
The cursor (highlight) is in
the first field, Angle
Measure.
2. Press
to display a
list of choices.
3. Press*k,ꢀto select
Degrees, and press
The angle measure
changes to degrees.
.
4. Press
HOME.
to return to
H I N T
Whenever an input form has a list of choices for a field, you
can press to cycle through them instead of using
.
Aplets (E–lessons)
Aplets are the application environments where you explore
different classes of mathematical operations. You select the
aplet that you want to work with.
Aplets come from a variety of sources:
•
•
Built-in the HP 39G/40G (initial purchase).
Aplets created by saving existing aplets, which have been
modified, with specific configurations. See “Creating
new aplets based on existing aplets” on page 16-1.
•
•
Downloaded from HP’s Calculators web site.
Copied from another calculator.
Getting started
1-11
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Aplets are stored in the Aplet
library. See “Aplet library” on
page 1-15 for further
information.
You can modify configuration
settings for the graphical, tabular, and symbolic views of the
aplets in the following table. See “Aplet view configuration”
on page 1-17 for further information.
Aplet
name
Use this aplet to explore:
Function
Real-valued, rectangular functions y in
terms of x. Example: y = 2x2 + 3x + 5 .
Inference
Confidence intervals and Hypothesis tests
based on the Normal and Students-t
distributions.
Parametric
Polar
Parametric relations x and y in terms of t.
Example: x = cos(t) and y = sin(t).
Polar functions r in terms of an angle θ.
Example: r = 2cos(4θ) .
Sequence
Sequence functions U in terms of n, or in
terms of previous terms in the same or
another sequence, such as Un – 1 and
U
n – 2 . Example: U1 = 0 , U2 = 1 and
Un = Un – 2 + Un – 1
.
Solve
Equations in one or more real-valued
variables. Example: x + 1 = x2 – x – 2 .
Statistics
One-variable (x) or two-variable (x and y)
statistical data.
In addition to these aplets, which can be used in a variety of
applications, the HP 39G/40G is supplied with two teaching
aplets: Quad Explorer and Trig Explorer. You cannot modify
configuration settings for these aplets.
A great many more teaching aplets can be found at HP’s web
site and other web sites created by educators, together with
accompanying documentation, often with student work
sheets. These can be downloaded free of charge and
transferred to the HP 39G/40G using the separately supplied
Connectivity Kit.
1-12
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Quad Explorer
aplet
The Quad Explorer aplet is used to investigate the behaviour
of y = a(x + h)2 + v as the values of a, h and v change, both
by manipulating the equation and seeing the change in the
graph, and by manipulating the graph and seeing the change
in the equation.
H I N T
More detailed documentation, and an accompanying student
work sheet can be found at HP’s web site.
When first started, the aplet is
in
mode, in which the
arrow keys, the
keys and the
and
key are used
to change the shape of the
graph. This changing shape is
reflected in the equation displayed at the top right corner of
the screen, while the original graph is retained for
comparison. In this mode the graph controls the equation.
It is also possible to have the
equation control the graph.
Pressing
displays a
sub-expression of your
equation (see right).
Pressing the *A,ꢀand *>,ꢀkey moves between sub-
expressions, while pressing the *k,ꢀandꢀ*e, key changes
their values.
Pressing
allows the user to select whether all three sub-
expressions will be explored at once or only one at a time.
A
button is provided to
evaluate the student’s
knowledge. Pressing
displays a target quadratic
graph. The student must
manipulate the equation’s parameters to make the equation
match the target graph. When a student feels that they have
correctly chosen the parameters a
answer and provide feedback. An
for those who give up!
button evaluates the
button is provided
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Trig Explorer
aplet
The Trig Explorer aplet is used to investigate the behaviour
of the graph of y = asin(bx + c) + d as the values of a, b, c
and d change, both by manipulating the equation and seeing
the change in the graph, or by manipulating the graph and
seeing the change in the equation.
When the user presses
in the
view, the screen
shown right is displayed.
In this mode, the graph
controls the equation. Pressing
the *k,*e, and *>,*A, keys
transforms the graph, with
these transformations reflected
in the equation.
The button labelled
toggle between
. When
is a
and
is
Origin
chosen, the ‘point of control’ is
at the origin (0,0) and the
*k,*e, and *>,*A, keys
control vertical and horizontal
transformations. When
is chosen the ‘point of control’ is on the first extremum of the
graph (i.e. for the sine graph at (π ⁄ 2,1) .
The arrow keys change the
amplitude and frequency of the
graph. This is most easily seen
by experimenting.
Extremum
Pressing
displays the
equation at the top of the
screen. The equation is
controls the graph. Pressing the
*A, and *>, keys moves from
parameter to parameter.
Pressing the *k, or *e, key changes the parameter’s values.
The default angle setting for this aplet is radians. The angle
setting can be changed to degrees by pressing
.
1-14
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Aplet library
Aplets are stored in the Aplet library.
To open an aplet
Press
aplet and press
to display the Aplet library menu. Select the
or
.
From within an aplet, you can return to HOME any time by
pressing
.
Aplet views
When you have configured an aplet to define the relation or
data that you want to explore, you can display it in different
views. Here are illustrations of the three major aplet views
(Symbolic, Plot, and Numeric), the six supporting aplet views
(from the VIEWS menu), and the two user-defined views
(Note and Sketch).
Symbolic view
Press
to display the aplet’s Symbolic view.
You use this view to define the
function(s) or equation(s) that
you want to explore.
See “About the Symbolic
view” on page 2-1 for further
information.
Plot view
Press
to display the aplet’s Plot view.
In this view, the functions that
you have defined are displayed
graphically.
See “About the Plot view” on
page 2-5 for further
information.
Numeric view
Press
to display the aplet’s Numeric view.
In this view, the functions that
you have defined are displayed
in tabular format.
See “About the numeric view”
on page 2-15 for further
information.
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Plot-Table
view
The VIEWS menu contains the Plot-Table view.
Select Plot-Table
Splits the screen into the plot
and the data table. See “Other
views for scaling and splitting
the graph” on page 2-13 for futher information.
Plot-Detail
view
The VIEWS menu contains the Plot-Detail view.
Select Plot-Detail
Splits the screen into the plot
and a close-up.
See “Other views for scaling and splitting the graph” on
page 2-13 for further information.
Overlay Plot
view
The VIEWS menu contains the Overlay Plot view.
Select Overlay Plot
Plots the current expression(s)
without erasing any pre-
existing plot(s).
See “Other views for scaling and splitting the graph” on
page 2-13 for further information.
Note view
Press
NOTE to display the aplet’s note view.
This note is transferred with
the aplet if it is sent to another
calculator or to a PC. A note
view contains text to
supplement an aplet.
See “Notes and sketches” on page 14-1 for further
information.
Sketch view
Press
SKETCH to display the aplet’s sketch view.
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Displays pictures to
supplement an aplet.
See “Notes and sketches” on
page 14-1 for further
information.
Aplet view configuration
You use the SETUP keys (
configure the aplet. For example, press
)to display the input form for setting the aplet’s
, and
) to
SETUP-PLOT
(
plot settings. Angle measure is controlled using the MODES
view.
Plot Setup
Press
SETUP-PLOT. Sets
parameters to plot a graph.
Numeric Setup Press
SETUP-NUM. Sets
parameters for building a table
of numeric values.
Symbolic
Setup
This view is only available in
the Statistics aplet in 2VAR
mode, where it plays an
important role in choosing data
models. Press (
SETUP
SYMB.
To change views
Each view is a separate environment. To change a view, select
a different view by pressing keys or
select a view from the VIEWS menu. To change to HOME,
press . You do not explicitly close the current view,
,
,
you just enter another one—like passing from one room into
another in a house. Data that you enter is automatically saved
as you enter it.
To save aplet
configuration
You can save an aplet configuration that you have used, and
transfer the aplet to other HP 39G/40G calculators. See
“Sending and receiving aplets” on page 16-5.
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Mathematical calculations
The most commonly used math operations are available from
the keyboard. Access to the rest of the math functions is via
the MATH menu ( ).
To access programming commands, press
CMDS. See
“Programming commands” on page 15-14 for further
information.
Where to start
The home base for the calculator is the HOME view
(
). You can do all calculations here, and you can
access all operations.
Entering
expressions
•
•
•
Enter an expression into the HP 39G/40G in the same
left-to-right order that you would write the expression.
This is called algebraic entry.
To enter functions, select the key or MATH menu item
for that function. You can also enter a function by using
the Alpha keys to spell out its name.
Press
to evaluate the expression you have in the
edit line (where the blinking cursor is). An expression
can contain numbers, functions, and variables.
232 – 14 8
---------------------------
Example
Calculate
ln(45) :
–3
23 ꢁ,
14
√ 8
j
3
45
Long results
If the result is too long to fit on the display line, or if you want
to see an expression in textbook format, press *k, to highlight
it and then press
.
Negative
numbers
Type
sign.
to start a negative number or to insert a negative
To raise a negative number to a power, enclose it in
2
2
parentheses. For example, (–5) = 25, whereas –5 = –25.
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Scientific
notation
(powers of 10)
A number like 5 × 104 or 3.21 × 10–7 is written in scientific
notation, that is, in terms of powers of ten. This is simpler to
work with than 50000 or 0.000000321. To enter numbers like
these, use EEX. (This is easier than using
10 N .)
(4 × 10–13)(6 × 1023
)
----------------------------------------------------
Example
Calculate
3 × 10–5
4
EEX
13
6
j 3
EEX
EEX
23
5
Explicit and
implicit
multiplication
Implied multiplication takes place when two operands appear
with no operator in between. If you enter AB, for example, the
result is A*B.
However, for clarity, it is better to include the multiplication
sign where you expect multiplication in an expression. It is
clearest to enter ABas A*B.
H I N T
Implied multiplication will not always work as expected. For
example, entering A(B+4)will not give A*(B+4). Instead
an error message is displayed: “Invalid User Function”. This
is because the calculator interprets A(B+4)as meaning
‘evaluate function Aat the value B+4’, and function Adoes
not exist. When in doubt, insert the * sign manually.
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Parentheses
You need to use parentheses to enclose arguments for
functions, such as SIN(45). You can omit the final parenthesis
at the end of an edit line. The calculator inserts it
automatically.
Parentheses are also important in specifying the order of
operation. Without parentheses, the HP 39G/40G calculates
according to the order of algebraic precedence (the next
topic). Following are some examples using parentheses.
Entering...
Calculates...
sin (45 + π)
sin (45) + π
85 × 9
45
45
π
π
√85
√
9
85
9
85 × 9
Algebraic
precedence
order of
Functions within an expression are evaluated in the following
order of precedence. Functions with the same precedence are
evaluated in order from left to right.
1. Expressions within parentheses. Nested parentheses are
evaluated from inner to outer.
evaluation
2. Prefix functions, such as SIN and LOG.
3. Postfix functions, such as !
4. Power function, ^, NTHROOT.
5. Negation, multiplication, and division.
6. Addition and subtraction.
7. AND and NOT.
8. OR and XOR.
9. Left argument of | (where).
10. Equals, =.
Largest and
smallest
numbers
The smallest number the HP 39G/40G can represent is
–499
1 × 10
(1E–499). A smaller result is displayed as zero. The
–49
largest number is 9.99999999999 × 10 . A larger result is
still displayed as this number.
1-20
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Clearing
numbers
•
clears the character under the cursor. When the
cursor is positioned after the last character,
the character to the left of the cursor, that is, it performs
the same as a backspace key.
deletes
•
•
CANCEL (
) clears the edit line.
CLEAR clears all input and output in the display,
including the display history.
Using
previous
results
The HOME display (
) shows you four lines of input/
output history. An unlimited (except by memory) number of
previous lines can be displayed by scrolling. You can retrieve
and reuse any of these values or expressions.
Input
Output
Last input
Last output
Edit line
When you highlight a previous input or result (by pressing
*k,), the
and
menu labels appear.
To copy a
previous line
Highlight the line (press *k,) and press
expression) is copied into the edit line.
. The number (or
To reuse the last
result
Press
HOME display into an expression. ANS is a variable that is
updated each time you press
ANS (last answer) to put the last result from the
.
To repeat a
previous line
To repeat the very last line, just press
. Otherwise,
highlight the line (press *k,) first, and then press
highlighted expression or number is re-entered. If the
previous line is an expression containing the ANS, the
calculation is repeated iteratively.
. The
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Example
See how
and
ANS retrieves and reuses the last result (50),
updates ANS (from 50 to 75 to 100).
50
25
You can use the last result as the first expression in the edit
line without pressing ANS. Pressing , or
,
,
j , (or other operators that require a preceding argument)
automatically enters ANS before the operator.
You can reuse any other expression or value in the HOME
display by highlighting the expression (using the arrow keys),
then pressing
. See “Using previous results” on page 1-
21 for more details.
The variable ANS is different from the numbers in HOME’s
display history. A value in ANS is stored internally with the full
precision of the calculated result, whereas the displayed
numbers match the display mode.
H I N T
When you retrieve a number from ANS, you obtain the result
to its full precision. When you retrieve a number from the
HOME’s display history, you obtain exactly what was
displayed.
Pressing
evaluates (or re-evaluates) the last input,
whereas pressing
the edit line.
ANS copies the last result (as ANS) into
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Storingavalue
in a variable
You can save an answer in a variable and use the variable in
later calculations. There are 27 variables available for storing
real values. These are A to Z and θ. See Chapter 11,
“Variables and memory management” for more information
on variables. For example:
1. Perform a calculation.
45
8
8 3
2. Store the result in the A variable.
A
3. Perform another calculation using the A variable.
95
2
A
Accessing the
display history
Pressing *k, enables the highlight bar in the display history.
While the highlight bar is active, the following menu and
keyboard keys are very useful:
Key
Function
*k,, *e,
Scrolls through the display history.
Copies the highlighted expression to the
position of the cursor in the edit line.
Displays the current expression in standard
mathematical form.
Deletes the highlighted expression from
the display history, unless there is a cursor
in the edit line.
Clears all lines of display history and the
edit line.
CLEAR
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Clearing the
display history
It’s a good habit to clear the display history (
CLEAR)
whenever you have finished working in HOME. It saves
calculator memory to clear the display history. Remember
that all your previous inputs and results are saved until you
clear them.
Using fractions
To work with fractions in HOME, you set the number format
to Fractions, as follows:
Setting
1. In HOME, open the HOME MODES input form.
Fraction mode
MODES
2. Select Number Format and press
options, then select Fraction.
to display the
*e,
*e,*e,*e,*e,
3. Press
to select the
option, then select the precision value.
*A,
4. Enter the precision that you want to use, and press
to
set the precision. Press
to return to HOME.
See “Setting fraction precision” below for more
information.
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Setting
fraction
precision
The fraction precision setting determines the precision in
which the HP 39G/40G converts a decimal value to a fraction.
The greater the precision value that is set, the closer the
fraction is to the decimal value.
By choosing a precision of 1 you are saying that the fraction
only has to match 0.234 to at least 1 decimal place (3/13 is
0.23076...).
The fractions used are found using the technique of continued
fractions.
When converting recurring decimals this can be important.
For example, at precision 6 the decimal 0.6666 becomes
3333/5000 (6666/10000) whereas at precision 3, 0.6666
becomes 2/3, which is probably what you would want.
For example, when converting .234 to a fraction, the precision
value has the following effect:
•
•
•
•
Precision set to 1:
Precision set to 2:
Precision set to 3:
Precision set to 4
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Fraction
When entering fractions:
calculations
•
You use the j key to separate the numerator part and
the denominator part of the fraction.
1
•
To enter a mixed fraction, for example, 1 / , you enter it
2
1
in the format (1+ / ).
2
For example, to perform the following calculation:
3
7
3(2 / + 5 / )
4
8
1. Set the mode Number format to fraction.
MODES *e,
Select
Fraction
*A,4
2. Return to HOME and enter the calculation.
3
2
3
j 4
j 8
5
7
3. Evaluate the calculation.
Converting
decimals to
fractions
To convert a decimal value to a fraction:
1. Set the number mode to Fraction.
2. Either retrieve the value from the History, or enter the
value on the command line.
3. Press
to convert the number to a fraction.
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Converting a
number to a
fraction
When converting a number to a fraction, keep the following
points in mind:
•
When converting a recurring decimal to a fraction, set the
fraction precision to about 6, and ensure that you include
more than six decimal places in the recurring decimal
that you enter.
In this example, the
fraction precision is set
to 6. The top calculation
returns the correct result.
The bottom one does not.
•
To convert an exact decimal to a fraction, set the fraction
precision to at least two more than the number of decimal
places in the decimal.
In this example, the
fraction precision is set
to 6.
Complex numbers
Complex results
The HP 39G/40G can return a complex number as a result for
some math functions. A complex number appears as an
ordered pair (x, y), where x is the real part and y is the
imaginary part. For example, entering –1 returns (0,1).
To enter complex
numbers
Enter the number in either of these forms, where x is the real
part, y is the imaginary part, and i is the imaginary constant,
–1 :
•
•
(x, y) or
x + iy.
To enter i:
•
press
or
I
•
press
, *k,ꢀor *e,ꢀkeys to select Constant, *A,ꢀ
to move to the right column of the menu, *e,ꢀtoꢀselect i,
and
.
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Storing complex
numbers
There are 10 variables available for storing complex numbers:
Z0 to Z9. To store a complex number in a variable:
•
Enter the complex number, press
,ꢀenter the
variable to store the number in and press
.
4
5
Z 0
Catalogs and editors
The HP 39G/40G has several catalogs and editors. You use
them to create and manipulate objects. They access features
and stored values (numbers or text or other items) that are
independent of aplets.
•
A catalog lists items, which you can delete or transmit,
for example an aplet.
•
An editor lets you create or modify items and numbers,
for example a note or a matrix.
Catalog/Editor
Contents
Aplet library
Aplets.
(
)
Sketch editor
Sketches and diagrams, See
Chapter 14, “Notes and sketches”.
(
SKETCH)
List (
LIST)
Lists. In HOME, lists are enclosed
in {}. See Chapter 13, “Lists”.
Matrix
(
One- and two-dimensional arrays.
In HOME, arrays are enclosed in
[]. See Chapter 12, “Matrices”.
MATRIX)
Notepad
Notes (short text entries). See
Chapter 14, “Notes and sketches”.
(
NOTEPAD)
Program
Programs that you create, or
associated with user-defined
aplets. See Chapter 15,
“Programming”.
(
PROGRAM)
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Differences between the HP 38G and the
HP 39G/40G
CAS
The HP 40G is packaged with a computer algebra system
(CAS). Refer to the CAS Manual for further information.
Memory
manager
The HP 39G/40G incorporates a memory manager that you
can use to see how much memory the objects that you have
created or loaded are occupying. See “Memory Manager” on
page 11-9 for more information.
Plot Goto
function
In Plot view, you can use the
menu key to jump to a
value on the plot instead of having to trace the plot to locate
values. See “Exploring the graph” on page 2-7 for more
information.
Statistics Pred
function
When you choose the
view screen, it is now possible to
option in the Statistics aplet’s Plot
along the regression
curve. Once a data set and regression curve is displayed,
pressing the up and down arrows will move between the data
and the curve of regression. When the regression curve is
selected, the values displayed in the Plot view status line are
the PREDYvalues. On the HP 38G, the Trace function would
select known data points only.
Inference aplet To complement the Statistics aplet, a new Inference aplet has
been added. Use this aplet to perform hypothesis tests and
determine confidence intervals. See “About the Inference
aplet” on page 9-1 for more information.
Trig Explorer
and Quadratic
Explorer
The teaching aplets Trig Explorer and Quadratic Explorer
have been added to the calculator. These two aplets add
powerfully to the capabilities of the calculator in the
classroom.
aplets
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2
Aplets and their views
Aplet views
This section examines the options and functionality of the
three main views for the Function, Polar, Parametric, and
Sequence aplets: Symbolic, Plot, and Numeric views.
About the Symbolic view
The Symbolic view is the defining view for the Function,
Parametric, Polar, and Sequence aplets. The other views are
derived from the symbolic expression.
You can create up to 10 different definitions for each
Function, Parametric, Polar, and Sequence aplet. You can
graph any of the relations (in the same aplet) simultaneously
by selecting them.
Defining an expression (Symbolic view)
Choose the aplet from the Aplet Library.
Press *k,or*e, to select
an aplet.
The Function,
Parametric, Polar, and
Sequence aplets start in the Symbolic view.
If the highlight is on an existing expression, scroll to an
empty line—unless you don’t mind writing over the
expression—or, clear one line (
) or all lines
(
CLEAR).
Expressions are selected (check marked) on entry. To
deselect an expression, press
expressions are plotted.
. All selected
Aplets and their views
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–
–
For a Function
definition, enter an
expression to define
F(X). The only
independent variable
in the expression is
X.
For a Parametric
definition, enter a
pair of expressions
to define X(T) and
Y(T). The only
independent variable
in the expressions is
T.
–
–
For a Polar
definition, enter an
expression to define
R(θ). The only
independent variable
in the expression is
θ.
For a Sequence
definition, either:
Enter the first and
second terms for U
(U1, or...U9, or U0).
Define the nth term
of the sequence in
terms of N or of the
prior terms, U(N–1) and U(N–2). The expressions
should produce real-valued sequences with integer
domains.Or define the nth term as a non-recursive
expression in terms of n only. In this case, the
calculator inserts the first two terms based on the
expression that you define.
2-2
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Evaluating expressions
In aplets
In the Symbolic view, a variable is a symbol only, and does
not represent one specific value. To evaluate a function in
Symbolic view, press . If a function calls another
function, then resolves all references to other functions
in terms of their independent variable.
1. Choose the Function
aplet.
Select Function
2. Enter the expressions in
the Function aplet’s Symbolic view.
A
ꢁ
B
F1
F2
3. Highlight F3(X).
*k,
4. Press
Note how the values for
F1(X) and F2(X) are
substituted into F3(X).
In HOME
You can also evaluate any expression in HOME by entering it
into the edit line and pressing
.
For example, define F4 as below. In HOME, type F4(9)and
press . This evaluates the expression, substituting 9in
place of Xinto F4.
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SYMB view
keys
The following table details the menu keys that you use to work
with the Symbolic view.
Key
Meaning
Copies the highlighted expression to the
edit line for editing. Press
done.
when
Checks/unchecks the current expression
(or set of expressions). Only checked
expression(s) are evaluated in the Plot
and Numeric views.
Enters the independent variable in the
Function aplet. Or, you can use the
5 key on the keyboard.
Enters the independent variable in the
Parametric aplet. Or, you can use the
5 key on the keyboard.
Enters the independent variable in the
Polar aplet. Or, you can use the
key on the keyboard.
5
Enters the independent variable in the
Sequence aplet. Or, you can use the
5 key on the keyboard.
Displays the current expression in text
book form.
Resolves all references to other
definitions in terms of variables and
evaluates all arithmetric expressions.
Displays a menu for entering variable
names or contents of variables.
Displays the menu for entering math
operations.
Displays special characters. To enter
one, place the cursor on it and press
. To remain in the CHARS menu
and enter another special character,
CHARS
press
.
Deletes the highlighted expression or
the current character in the edit line.
CLEAR
Deletes all expressions in the list or
clears the edit line.
2-4
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About the Plot view
After entering and selecting (check marking) the expression in
the Symbolic view, press . To adjust the appearance of
the graph or the interval that is displayed, you can change the
Plot view settings.
You can plot up to ten expressions at the same time. Select the
expressions you want to be plotted together.
Setting up the plot (Plot view setup)
Press
SETUP-PLOT to define any of the settings shown
in the next two tables.
1. Highlight the field to edit.
–
If there is a number to enter, type it in and press
or
.
–
If there is an option to choose, press
your choice, and press or
, highlight
. As a shortcut
to
, just highlight the field to change and press
to cycle through the options.
–
If there is an option to select or deselect, press
to check or uncheck it.
2. Press
to view more settings.
3. When done, press
to view the new plot.
Plot view
settings
The plot view settings are:
Field
Meaning
XRNG, YRNG
Specifies the minimum and
maximum horizontal (X) and vertical
(Y) values for the plotting window.
RES
For function plots: Resolution;
“Faster” plots in alternate pixel
columns; “Detail” plots in every
pixel column.
TRNG
Parametric aplet: Specifies the t-
values (T) for the graph.
θRNG
Polar aplet: Specifies the angle (θ)
value range for the graph.
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Field
Meaning (Continued)
NRNG
Sequence aplet: Specifies the index
(N) values for the graph.
TSTEP
For Parametric plots: the increment
for the independent variable.
θSTEP
For Polar plots: the increment value
for the independent variable.
SEQPLOT
For Sequence aplet: Stairstep
or Cobweb types.
XTICK
YTICK
Horizontal spacing for tickmarks.
Vertical spacing for tickmarks.
Those items with space for a checkmark are settings you can
turn on or off. Press
to display the second page.
Field
Meaning
SIMULT
If more than one relation is being
plotted, plots them simultaneously
(otherwise sequentially).
INV. CROSS
CONNECT
Cursor crosshairs invert the status of
the pixels they cover.
Connect the plotted points. (The
Sequence aplet always connects
them.)
LABELS
Label the axes with XRNGand YRNG
values.
AXES
GRID
Draw the axes.
Draw grid points using XTICKand
YTICKspacing.
Reset plot
settings
To reset the default values for all plot settings, press
CLEAR in the Plot Setup view. To reset the default value
for a field, highlight the field, and press
.
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Exploring the graph
Plot view gives you a selection of keys and menu keys to
explore a graph further. The options vary from aplet to aplet.
PLOT view
keys
The following table details the keys that you use to work with
the graph.
Key
Meaning
CLEAR
Erases the plot and axes.
Offers additional pre-defined views for
splitting the screen and for scaling
(“zooming”) the axes.
*>,
*A,
Moves cursor to far left or far right.
*k,
*e,
Moves cursor between relations.
or
Interrupts plotting.
Continues plotting if interrupted.
Turns menu-key labels on and off. When
the labels are off, pressing
them back on.
turns
•
Pressing
full row of labels.
Pressing a second time
once displays the
•
removes the row of labels to display
only the graph.
•
Pressing
a third time displays
the coordinate mode.
Displays ZOOM menu list.
Turns trace mode on/off. A white box
appears over the on
.
Opens an input form for you to enter anX
(or T or N or θ) value. Enter the value and
press
. The cursor jumps to the point
on the graph that you entered.
Function aplet only: Turns on menu list
for root-finding functions (see “Analyse
graph with FCN functions” on page 3-3.
Displays the current, defining
expression. Press
menu.
to restore the
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Trace a graph
You can trace along a function using the *>, orꢀ*A, key which
moves the cursor along the graph. The display also shows the
current coordinate position (x, y) of the cursor. Trace mode
and the coordinate display are automatically set when a plot is
drawn.
Note: Tracing might not appear to exactly follow your plot if
the resolution (in Plot Setup view) is set to Faster. This is
because RES: FASTER plots in only every other column,
whereas tracing always uses every column.
In Function and Sequence Aplets: You can also scroll
(move the cursor) left or right beyond the edge of the display
window in trace mode, giving you a view of more of the plot.
To move between
relations
If there is more than one relation displayed, press *k, or *e,
to move between relations.
To jump directly
to a value
To jump straight to a value rather than using the Trace
function, use the
value. Press
menu key. Press
to jump to the value.
, then enter a
To turn trace on/
off
If the menu labels are not displayed, press
first.
•
•
•
Turn off trace mode by pressing
Turn on trace mode by pressing
To turn the coordinate display off, press
.
.
.
Zoom within a
graph
One of the menu key options is
plot on a larger or smaller scale. It is a shortcut for changing
the Plot Setup.
. Zooming redraws the
With the Set Factors option you can specify the factors that
determine the extent of zooming, and whether the zoom is
centered about the cursor.
ZOOM options
Press
displayed, press
all aplets.
, select an option, and press
. (If
is not
.) Not all
options are available in
Option
Meaning
Center
Re-centers the plot around the current
position of the cursor without
changing the scale.
Box...
Lets you draw a box to zoom in on. See
“Other views for scaling and splitting
the graph” on page 2-13.
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Option
Meaning (Continued)
In
Divides horizontal and vertical scales
by the X-factor and Y-factor. For
instance, if zoom factors are 4, then
zooming in results in 1/4 as many units
depicted per pixel. (see Set Factors)
Out
Multiplies horizontal and vertical
scales by the X-factor and Y-factor
(see Set Factors).
X-Zoom In
X-Zoom Out
Y-Zoom In
Y-Zoom Out
Square
Divides horizontal scale only, using
X–factor.
Multiplies horizontal scale, using
X–factor.
Divides vertical scale only, using
Y–factor.
Multiplies vertical scale only, using
Y–factor.
Changes the vertical scale to match the
horizontal scale. (Use this after doing a
Box Zoom, X–Zoom, or Y–Zoom.)
Set
Factors...
Sets the X–Zoom and Y–Zoom factors
for zooming. Includes option to
recenter the plot before zooming.
Auto Scale
Rescales the vertical axis so that the
display shows a representative piece of
the plot, for the supplied x axis
settings. (For Sequence and Statistics
aplets, autoscaling rescales both axes.)
The autoscale process uses the first
selected function only to determine the
best scale to use.
Decimal
Rescales both axes so each pixel = 0.1
units. Resets default values for XRNG
(–6.5 to 6.5) and YRNG(–3.1 to 3.2).
(Not in Sequence or Statistics aplets.)
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Option
Meaning (Continued)
Integer
Rescales horizontal axis only, making
each pixel =1 unit. (Not available in
Sequence or Statistics aplets.)
Trig
Rescales horizontal axis so
1 pixel = π/24 radian, 7.58, or
1
8 / grads; rescales vertical axis so
3
1 pixel = 0.1 unit.
(Not in Sequence or Statistics aplets.)
Un-zoom
Returns the display to the previous
zoom, or if there has been only one
zoom, un-zoom displays the graph
with the original plot settings.
ZOOM examples
The following screens show the effects of zooming options on
a plot of 3sinx .
Plot of 3sinx
Zoom In:
In
Un-zoom:
Un-zoom
(Press *k, to move to the
bottom of the Zoom list.)
Zoom Out:
Out
Now un-zoom.
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X-Zoom In:
X-Zoom In
Now un-zoom.
X-Zoom Out:
X-Zoom Out
Now un-zoom.
Y-Zoom In:
Y-Zoom In
Now un-zoom.
Y-Zoom Out:
Y-Zoom Out
Zoom Square:
Square
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To box zoom
The Box Zoom option lets you draw a box around the area you
want to zoom in on by selecting the endpoints of one diagonal
of the zoom rectangle.
1. If necessary, press
to turn on the menu-key labels.
2. Press and select .
3. Position the cursor on one corner of the rectangle. Press
.
4. Use the cursor keys
(*e,, etc.) to drag to the
opposite corner.
5. Press
to zoom in on
the boxed area.
To set zoom
factors
1. In the Plot view, press
2. Press
3. Select Set Factors...and press
.
.
.
4. Enter the zoom factors. There is one zoom factor for the
horizontal scale (XZOOM) and one for the vertical scale
(YZOOM).
Zooming out multiplies the scale by the factor, so that a
greater scale distance appears on the screen. Zooming in
divides the scale by the factor, so that a shorter scale
distance appears on the screen.
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Other views for scaling and splitting the graph
The preset viewing options menu (
) contains options
for drawing the plot using certain pre-defined configurations.
This is a shortcut for changing Plot view settings. For
instance, if you have defined a trigonometric function, then
you could select Trigto plot your function on a
trigonometric scale. It also contains split-screen options.
In certain aplets, for example those that you download from
the world wide web, the preset viewing options menu can also
contain options that relate to the aplet.
VIEWS menu
options
Press
, select an option, and press
.
Option
Meaning
Plot-
Detail
Splits the screen into the plot and a
close-up.
Plot-Table
Splits the screen into the plot and the
data table.
Overlay
Plot
Plots the current expression(s) without
erasing any pre-existing plot(s).
Auto Scale
Rescales the vertical axis so that the
display shows a representative piece of
the plot, for the supplied x axis
settings. (For Sequence and Statistics
aplets, autoscaling rescales both axes.)
The autoscale process uses the first
selected function only to determine the
best scale to use.
Decimal
Rescales both axes so each pixel = 0.1
unit. Resets default values for XRNG
(–6.5 to 6.5) and YRNG(–3.1 to 3.2).
(Not in Sequence or Statistics aplets.)
Integer
Trig
Rescales horizontal axis only, making
each pixel=1 unit. (Not available in
Sequence or Statistics aplets.)
Rescales horizontal axis so
1 pixel=π/24 radian, 7.58, or
1
8 / grads; rescales vertical axis so
3
1 pixel = 0.1 unit.
(Not in Sequence or Statistics aplets.)
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Split the screen
The Plot-Detail view can give you two simultaneous views of
the plot.
1. Press
. Select Plot-Detailand press . The
graph is plotted twice. You can now zoom in on the right
side.
2. Press
or
, select the zoom method and press
. This zooms the right side. Here is an example
of split screen with Zoom In.
.
–
–
–
The Plot menu keys are available as for the full plot
(for tracing, coordinate display, equation display, and
so on).
*>, moves the leftmost cursor to the screen’s
left edge and
*A, moves the rightmost cursor
to the screen’s right edge.
The
plot.
menu key copies the right plot to the left
3. To un-split the screen, press
over the whole screen.
. The left side takes
The Plot-Table view gives you two simultaneous views of the
plot.
1. Press
. Select Plot-Tableand press
. The
screen displays the plot on the left side and a table of
numbers on the right side.
2. To move up and down
the table, use the *>, and
*A, cursor keys. These
keys move the trace point left or right along the plot, and
in the table, the corresponding values are highlighted.
3. To move between functions, use the *k, and *e, cursor
keys to move the cursor from one graph to another.
4. To return to a full Numeric (or Plot) view, press
(or
).
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Overlay plots
If you want to plot over an existing plot without erasing that
plot, then use Overlay Plotinstead of
.
Note that tracing follows only the current functions from the
current aplet.
Decimal scaling
Integer scaling
Decimal scaling is the default scaling. If you have changed the
scaling to Trig or Integer, you can change it back with
Decimal.
Integer scaling compresses the axes so that each pixel is 1 × 1
and the origin is near the screen center.
Trigonometric
scaling
Use trigonometric scaling whenever you are plotting an
expression that includes trigonometric functions.
Trigonometric plots are more likely to intersect the axis at
points factored by π.
About the numeric view
After entering and selecting
(check marking) the
expression or expressions
that you want to explore in
the Symbolic view, press
to view a table of data
values for the independent variable (X, T, θ, or N) and
dependent variables.
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Setting up the table (numeric view setup)
Press
NUM to define
any of the table settings. Use
the Numeric Setup input
form to configure the table.
1. Highlight the field to edit. Use the arrow keys to move
from field to field.
–
If there is a number to enter, type it in and press
or . To modify an existing number, press
.
–
–
If there is an option to choose, press
, highlight
your choice, and press
or
.
Shortcut: Press the
key to copy values from
the Plot Setup into NUMSTARTand NUMSTEP.
Effectively, the
menu key allows you to make
the table match the pixel columns in the graph view.
2. When done, press to view the table of numbers.
Numeric view
settings
The following table details the fields on the Numeric Setup
input form.
Field
Meaning
NUMSTART
The independent variable’s starting
value.
NUMSTEP
NUMTYPE
The size of the increment from one
independent variable value to the
next.
Type of numeric table: Automatic or
Build Your Own. To build your own
table, you must type each
independent value into the table
yourself.
NUMZOOM
Allows you to zoom in or out on a
selected value of the independent
variable.
Reset numeric
settings
To reset the default values for all table settings, press
CLEAR.
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Exploring the table of numbers
NUM view
menu keys
The following table details the menu keys that you use to work
with the table of numbers.
Key
Meaning
Displays ZOOM menu list.
Toggles between two character sizes.
Displays the defining function
expression for the highlighted column.
To cancel this display, press
.
Zoom within a
table
Zooming redraws the table of numbers in greater or lesser
detail.
ZOOM options
The following table lists the zoom options:
Option
Meaning
In
Decreases the intervals for the
independent variable so a narrower
range is shown. Uses the NUMZOOM
factor in Numeric Setup.
Out
Increases the intervals for the
independent variable so that a wider
range is shown. Uses the NUMZOOM
factor in Numeric Setup.
Decimal
Changes intervals for the independent
variable to 0.1 units. Starts at zero.
(Shortcut to changing NUMSTARTand
NUMSTEP.)
Integer
Trig
Changes intervals for the independent
variable to 1 unit. Starts at zero.
(Shortcut to changing NUMSTEP.)
Changes intervals for independent
variable to π/24 radian or 7.5 degrees
1
or 8 / grads. Starts at zero.
3
Un-zoom
Returns the display to the previous
zoom.
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The display on the right is a Zoom In of the display on the left.
The ZOOMfactor is 4.
H I N T
To jump to an independent variable value in the table, use the
arrow keys to place the cursor in the independent variable
column, then enter the value to jump to.
Automatic
recalculation
You can enter any new value in the X column. When you press
, the values for the dependent variables are
recalculated, and the entire table is regenerated with the same
interval between X values.
Building your own table of numbers
The default NUMTYPEis “Automatic”, which fills the table
with data for regular intervals of the independent (X, T, θ, or
N) variable. With the NUMTYPEoption set to “Build Your
Own”, you fill the table yourself by typing in the independent-
variable values you want. The dependent values are then
calculated and displayed.
Build a table
1. Start with an expression defined (in Symbolic view) in
the aplet of your choice. Note: Function, Polar,
Parametric, and Sequence aplets only.
2. In the Numeric Setup (
NUM), choose NUMTYPE:
Build Your Own.
3. Open the Numeric view (
).
4. Clear existing data in the table (
CLEAR).
5. Enter the independent values in the left-hand column.
Type in a number and press
enter them in order, because the
. You do not have to
function can
rearrange them. To insert a number between two others,
use
.
F1 and F2
entries are
generated
automatically
You enter
numbers into
the X column
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Clear data
Press
CLEAR,
to erase the data from a table.
“Build Your Own” menu keys
Key
Meaning
Puts the highlighted independent
value (X, T, θ, or N) into the edit
line. Pressing
replaces this
variable with its current value.
Inserts a row of zero values at the
position of the highlight. Replace a
zero by typing the number you want
and pressing
.
Sorts the independent variable
values into ascending or descending
order. Press
and select the
ascending or descending option
from the menu, and press
.
Toggles between two character
sizes.
Displays the defining function
expression for the highlighted
column.
Deletes the highlighted row.
CLEAR
Clears all data from the table.
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Example: plotting a circle
2
2
Plot the circle, x + y = 9. First rearrange it to read
y = ± 9 – x2 .
To plot both the positive and negative y values, you need to
define two equations as follows:
y = 9 – x2 and y = – 9 – x2
1. In the Function aplet, specify the functions.
Select
Function
√
5
9
ꢁ
√
9
5
ꢁ
2. Reset the graph setup to the default settings.
SETUP-PLOT
CLEAR
3. Plot the two functions
and hide the menu so that
you can see all the circle.
4. Reset the numeric setup to the default settings.
SETUP-NUM
CLEAR
5. Display the functions in numeric form.
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3
Function aplet
About the Function aplet
The Function aplet enables you to explore up to 10
real–valued, rectangular functions y in terms of x. For
example y = 2x + 3 .
Once you have defined a function you can:
•
create graphs to find roots, intercepts, slope, signed area,
and extrema
•
create tables to evaluate functions at particular values.
This chapter demonstrates the basic tools of the Function aplet
by stepping you through an example. See “Aplet views” on
page 2-1 for further information about the functionality of the
Symbolic, Numeric, and Plot views.
Getting started with the Function aplet
The following example involves two functions: a linear
function y = 1 – x and a quadratic equation
y = (x + 3)2 – 2 .
Open the
1. Open the Function aplet.
Function aplet
Select Function
The Function aplet starts
in the Symbolic view.
The Symbolic view is the defining view for Function,
Parametric, Polar, and Sequence aplets. The other views
are derived from the symbolic expression.
Function aplet
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Define the
expressions
2. There are 10 function definition fields on the Function
aplet’s Symbolic view screen. They are labeled F1(X) to
F0(X). Highlight the function definition field you want to
use, and enter an expression. (You can press
to
delete an existing line, or CLEAR to clear all lines.)
1
5
5
3
ꢁ
2
Set up the plot
You can change the scales of the x and y axes, graph
resolution, and spacing of axis ticks.
3. Display plot settings.
SETUP-PLOT
Note: For our example, you can leave the plot settings at
their default values since we will be using the Auto Scale
feature to choose an appropriate y axis for our x axis
settings. If your settings do not match this example, press
CLEAR to restore the default values.
4. Specify a grid for the graph.
*A,ꢀ*e,ꢀ*e,ꢀ
ꢀ
Plot the
5. Plot the functions.
functions
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Change the
scale
6. You can change the scale to see more or less of your
graphs. In this example, choose Auto Scale. (See
“VIEWS menu options” on page 2-13 for a description of
Auto Scale).
Select Auto
Scale
Trace a graph
7. Trace the linear function.
*>, 6 times
Note: By default, the tracer
is active.
8. Jump from the linear function to the quadratic function.
*k,
Analyse graph
with FCN
9. Display the Plot view menu.
functions
From the Plot view menu, you can use the functions on
the FCN menu to find roots, intersections, slopes, and
areas for a function defined in the Function aplet (and
any Function-based aplets). The FCN functions act on
the currently selected graph. See “FCN functions” on
page 3-9 for further information.
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To find the
greater of the two
roots of the
quadratic
10. Find the greater of the two roots of the quadratic
function.
Note: Move the cursor to the graph of the quadratic
equation by pressing the *k,ꢀor *e,ꢀkey. Then move the
cursor so that it is near x = –1 by pressing the *A,ꢀorꢀ
*>,ꢀkey.
function
Select Root
The root value is
displayed at the bottom
of the screen.
To find the
11. Find the intersection of the two functions.
intersection of
the two functions
*e,ꢀ
ꢀ
12. Choose the linear function whose intersection with the
quadratic function you wish to find.
The coordinates of the
intersection point are
displayed at the bottom
of the screen.
Note: If there is more
than one intersection (as
in our example), the coordinates of the intersection point
closest to the current cursor position are displayed.
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To find the slope
of the quadratic
function
13. Find the slope of the quadratic function at the intersection
point.
SelectꢀSlopeꢀ
ꢀ
The slope value is
displayed at the bottom
of the screen.
To find the signed
area of the two
functions
14. To find the area between the two functions in the range
–2 ≤ x ≤ –1, first move the cursor to F1(x) = 1 – x and
select the signed area option.
Select Signedarea
15. Move the cursor to x = –1 by pressing the *A,ꢀor *>,ꢀ
key.
2
16. Press
to accept using F2(x) = (x + 3) – 2 as the other
boundary for the integral.
17. Choose the end value for
x.
2
The cursor jumps to
x = –2 on the linear
function.
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18. Display the numerical value of the integral.
Note: See “Shading
area” on page 3-10 for
another method of
calculating area.
To find the
extremum of the
quadratic
19. Move the cursor to the quadratic equation and find the
extremum of the quadratic.
*k,ꢀ
Select Extremum
The coordinates of the
extremum are displayed
at the bottom of the
screen.
H I N T
The Root and Extremum functions return one value only even
if the function has more than one root or extremum. The
function finds the value closest to the position of the cursor.
You need to re-locate the cursor to find other roots or extrema
that may exist.
Display the
20. Display the numeric view.
numeric view
Set up the
table
21. Display the numeric setup.
SETUP-NUM
See “Setting up the table (numeric view setup)” on
page 2-16 for more information.
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22. Match the table settings to the pixel columns in the graph
view.
Explore the
table
23. Display a table of numeric values.
To navigate
around a table
24. Move to X = –5.9.
*e,ꢀ6 timesꢀ
To go directly to a
value
25. Move directly to X = 10.
1 0
To access the
zoom options
26. Zoom in on X = 10 by a factor of 4. Note: NUMZOOMhas
a setting of 4.
In
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To change font
size
27. Display table numbers in large font.
To display the
symbolic
28. Display the symbolic definition for the F1 column.
*A,ꢀ
definition of a
column
The symbolic definition of
F1 is displayed at the bottom
of the screen.
Function aplet interactive analysis
From the Plot view (
), you can use the functions on the
FCN menu to find roots, intersections, slopes, and areas for a
function defined in the Function aplet (and any Function-
based aplets). See “FCN functions” on page 3-9. The FCN
operations act on the currently selected graph.
The results of the FCN functions are saved in the following
variables:
•
•
•
•
•
AREA
EXTREMUM
ISECT
ROOT
SLOPE
For example, if you use the ROOT function to find the root of
a plot, you can use the result in calculations in Home.
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Access FCN
variables
The FCN variables are contained in the VARS menu.
To access FCN variables in HOME:
Select Plot FCN
*A,ꢀ
*k,or*e, to choose a
variable
To access FCN variable in the Function aplet’s Symbolic
view:
Select Plot FCN
*A,ꢀ
*k,or*e, to choose a variable
FCN functions
The FCN functions are:
Function
Description
Root
Select Rootto find the root of the
current function nearest the cursor.
If no root is found, but only an
extremum, then the result is labeled
EXTR:instead of ROOT:. (The
root-finder is also used in the Solve
aplet. See also “Interpreting results”
on page 7-6.) The cursor is moved to
the root value on the x-axis and the
resulting x-value is saved in a
variable named ROOT.
Extremum
Select Extremumto find the
maximum or minimum of the
current function nearest the cursor.
This displays the coordinate values
and moves the cursor to the
extremum. The resulting value is
saved in a variable named
EXTREMUM.
Slope
Select Slopeto find the numeric
derivative at the current position of
the cursor. The result is saved in a
variable named SLOPE.
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Function
Description (Continued)
Signed area
Select Signed areato find the
numeric integral. (If there are two or
more expressions checkmarked,
then you will be asked to choose the
second expression from a list that
includes the x-axis.) Select a starting
point, then move the cursor to
selection ending point. The result is
saved in a variable named AREA.
Intersection
Select Intersectionto find the
intersection of two graphs nearest
the cursor. (You need to have at least
two selected expressions in
Symbolic view.) Displays the
coordinate values and moves the
cursor to the intersection. (Uses
Solve function.) The resulting x-
value is saved in a variable named
ISECT.
Shading area
You can shade a selected area between functions. This process
also gives you an approximate measurement of the area
shaded.
1. Open the Function aplet. The Function aplet opens in the
Symbolic view.
2. Select the expressions whose curves you want to study.
3. Press
to plot the functions.
4. Press *>, or *A, to position the cursor at the starting
point of the area you want to shade.
5. Press
6. Press
7. Press
.
, then select Signed areaand press
, choose the function that will act as the
.
boundary of he shaded area, and press
8. Press the *>, or *A,ꢀkey to shade in the area.
9. Press to calculate the area. The area measurement is
displayed near the bottom of the screen.
To remove the shading, press to re-draw the plot.
.
3-10
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Plotting a piecewise defined function example
Suppose you wanted to graph the following piecewise defined
function.
x + 2 ;x ≤ –1
f(x) =
x2
;–1 < x ≤ 1
4 – x ;x ≥ 1
1. Open the Function aplet.
Select
Function
2. Highlight the line you want to use, and enter the
expression. (You can press
to delete an existing
line, or
CLEAR to clear all lines.)
2
j
CHARS ≤
1
ꢁ
j
CHARS >
1
AND
CHARS ≤ 1
4
j
CHARS > 1
Note: You can use the
menu key to assist in the
entry of equations. It has
the same effect as
pressing
5 .
Function aplet
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4
Parametric aplet
About the Parametric aplet
The Parametric aplet allows you to explore parametric
equations. These are equations in which both x and y are
defined as functions of t. They take the forms x = f(t) and
y = g(t) .
Getting started with the Parametric aplet
The following example uses the parametric equations
x(t) = 3sint
y(t) = 3cost
Note: This example will produce a circle. For this example to
work, the angle measure must be set to degrees.
Open the
Parametric
aplet
1. Open the Parametric aplet.
Select
Parametric
Define the
2. Enter each equation.
expressions
3
5
3
5
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Set angle
measure
3. Set the angle measure to degrees.
MODES
Select Degrees
Set up the plot
4. Display the graphing options.
PLOT
You can see the Plot Setup input form has two fields not
included in the Function aplet, TRNGand TSTEP. TRNG
specifies the range of t values. TSTEPspecifies the step
value between t values.
5. Set the TRNGand TSTEPso that t steps from 0° to 360°
in 5° steps.
*A,ꢀ360
5ꢀ
Plot the
6. Plot the expression.
expression
7. To see all the circle, press
twice.
4-2
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Overlay plot
8. Plot a triangle graph over the existing circle graph.
PLOT
*e,
120
Select OverlayPlot
A triangle is displayed
rather than a circle
(without changing the
equation) because the changed value of TSTEPensures
that points being plotted are 120° apart instead of nearly
continuous.
You are able to explore the graph using trace, zoom, split
screen, and scaling functionality available in the
Function aplet. See “Exploring the graph” on page 2-7
for further information.
Display the
numbers
9. Display the table of numeric values.
You can see there is a
column of t-values.
This column is active in
the sense that you can
highlight a t-value, type in a replacement value, and see
the table jump to that value. You can also zoom in or
zoom out on any t-value in the table.
You are able to explore the table using
,
,
build your own table, and split screen functionality
available in the Function aplet. See “Exploring the table
of numbers” on page 2-18 for further information.
Parametric aplet
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5
Polar aplet
Getting started with the polar aplet
Open the Polar
aplet
1. Open the Polar aplet.
Select Polar
Like the Function aplet,
the Polar aplet opens in
the Symbolic view.
Define the
expression
2. Define the polar equation r = 2πcos(θ ⁄ 2)cos(θ)2 .
2
π
j
5
2
5
ꢁ
Specify plot
settings
3. Specify the plot settings. In this example, we will use the
default settings, except for the θRNGfields.
SETUP-PLOT
CLEAR
*A,ꢀ4ꢀ
π
Plot the
4. Plot the expression.
expression
Polar aplet
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Explore the
graph
5. Display the Plot view menu key labels.
The Plot view options
available are the same as
those found in the
Function aplet. See
“Exploring the graph”
on page 2-7 for further information.
Display the
numbers
6. Display the table of values θ for and R1.
The Numeric view
options available are the
same as those found in
the Function aplet. See
“Exploring the table of
numbers” on page 2-18 for further information.
5-2
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6
Sequence aplet
About the Sequence aplet
The Sequence aplet allows you to explore sequences.
You can define a sequence named, for example, U1:
•
•
•
•
•
in terms of n
in terms of U1(n-1)
in terms of U1(n-2)
in terms of another sequence, for example, U2(n)
in any combination of the above.
Getting started with the Sequence aplet
The following example defines and then plots an expression
in the Sequence aplet.
Open the
Sequence
aplet
1. Open the Sequence aplet.
Select
Sequence
The Sequence aplet
starts in the Symbolic
view.
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Define the
expression
2. Define the Fibonacci sequence, in which each term (after
the first two) is the sum of the preceding two terms:
U1 = 1 , U2 = 1 , Un = Un – 1 + Un – 2 for n > 3 .
In the Symbolic view of the Sequence aplet, highlight the
U1(1) field and begin defining your sequence.
1
1
Note: You can use the
, and menu
,
keys to assist in the entry
of equations.
Specify plot
settings
3. In Plot Setup, first set the SEQPLOToption to
Stairstep. Reset the default plot settings by clearing
the Plot Setup view.
–
A Stairsteps graph plots n on the horizontal axis and
n
U on the vertical axis.
–
A Cobweb graph plots U on the horizontal axis
n-1
and U on the vertical axis.
n
SETUP-PLOT
CLEAR
*e,ꢀ*A,ꢀ8ꢀ
*A,ꢀ8ꢀ
6-2
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Plot the
sequence
4. Plot the Fibonacci
sequence.
5. In Plot Setup, set the SEQPLOT option to Cobweb.
SETUP-PLOT
Select Cobweb
Display the
table
6. Display the table of numeric values for this example.
Sequence aplet
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7
Solve aplet
About the Solve aplet
The Solve aplet solves an equation or an expression for its
unknown variable. You define an equation or expression in
the symbolic view, then supply values for all the variables
except one in the numeric view. Solve works only with real
numbers.
Note the differences between an equation and an expression:
•
•
An equation contains an equals sign. Its solution is a
value for the unknown variable that makes both sides
have the same value.
An expression does not contain an equals sign. Its
solution is a root, that is, a value for the unknown
variable that makes the expression have a value of zero.
You can use the Solve aplet to solve an equation for any one
of its variables.
When the Solve aplet is started, it opens in the Solve symbolic
view.
•
•
In Symbolic view, you specify the expression or equation
to solve. You can define up to ten equations (or
expressions), named E0 to E9. Each equation can contain
up to 27 real variables, named A to Z and θ.
In Numeric view, you specify the values of the known
variables, highlight the variable that you want to solve
for, and press
.
You can solve the equation as many times as you want, using
new values for the knowns and highlighting a different
unknown.
Note: It is not possible to solve for more than one variable at
once. Simultaneous linear equations, for example, should be
solved using matrices or graphs in the Function aplet.
Solve aplet
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Getting started with the Solve aplet
Suppose you want to find the acceleration needed to increase
the speed of a car from 16.67 m/sec (60 kph) to 27.78 m/sec
(100 kph) in a distance of 100 m.
The equation to solve is:
v2 = u2 + 2ad
Open the
1. Open the Solve aplet.
Solve aplet
Select Solve
The Solve aplet starts in
the Symbolic view.
Define the
equation
2. Define the equation.
V
ꢁ
U
ꢁ
2
A
D
Note: You can use the menu key to assist in the entry of
equations.
Define known
variables
3. Display the Solve numeric view screen.
4. Enter the values for the known variables.
2 7
1 6
7 8
6 7
*e,
1 0 0
H I N T
If the Decimal Mark setting in the Modes input form
MODES)is set to Comma, use instead of
(
.
7-2
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Solve the
unknown
variable
5. Solve for the unknown variable (A).
*e,ꢀ*e,ꢀ
Therefore, the acceleration needed to increase the speed
of a car from 16.67 m/sec (60 kph) to 27.78 m/sec
(100 kph) in a distance of 100 m is approximately 2.47
2
m/s .
Because the variable A in the equation is linear, once
values are substituted into V, U and D, we know that we
need not look for any other solutions.
Plot the
equation
The Plot view shows one graph for each member of the
selected equation. You can choose any of the variables in
the Numeric view to be the independent variable.
The other variables take on the values assigned to them in
the Numeric view. The current equation is
V2 = U2 + 2AD . With the variable A highlighted, the
Plot view will show two graphs.
One of these is Y = V2 , with V = 27.78 , or
Y = 771.7284 . This graph will be a horizontal line. The
other graph will be Y = U2 + 2AD , with U = 16.67
and D = 100 , or Y = 200A + 277.8889 . This graph is
also a line. The desired solution is the value of A where
these two lines intersect.
6. Plot the equation for variable A.
Select Auto
Scale
Solve aplet
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7. Trace along the graph representing the left member of the
equation until the cursor nears the intersection.
*A,ꢀ≈20 times
Note the value of A
displayed near the
bottom left corner of the
screen.
The Plot view provides a convenient way to find an
approximation to a solution before using the Numeric
view Solve option. See “Plotting to find guesses” on
page 7-8 for more information.
Solve aplet’s NUM view keys
The Solve aplet’s NUM view keys are:
Key
Meaning
Copies the highlighted value to the edit
line for editing. Press
when done.
Displays a message about the solution
(see “Interpreting results” on page 7-6).
Displays other pages of variables, if
any.
Displays the symbolic definition of the
current expression. Press
done.
when
Finds a solution for the highlighted
variable, based on the values of the
other variables.
Clears highlighted variable to zero or
deletes current character in edit line, if
edit line is active.
CLEAR
Resets all variable values to zero or
clears the edit line, if cursor is in edit
line.
7-4
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Use an initial guess
You can usually obtain a faster and more accurate solution if
you supply an estimated value for the unknown variable
before pressing
. Solve starts looking for a solution at
the initial guess.
Before plotting, make sure the unknown variable is
highlighted in the numeric view. Plot the equation to help you
select an initial guess when you don’t know the range in which
to look for the solution. See “Plotting to find guesses” on
page 7-8 for further information.
H I N T
An initial guess is especially important in the case of a curve
that could have more than one solution. In this case, only the
solution closest to the initial guess is returned.
Number
format
You can change the number format for the Solve aplet in the
Numeric Setup view. The options are the same as in Home
MODES: Standard, Fixed, Scientific, and Engineering. For
the latter three, you also specify how many digits of accuracy
you want. See “Mode settings” on page 1-9 for more
information.
You might find it handy to set a different number format for
the Solve aplet if, for example, you define equations to solve
for the value of money. A number format of Fixed2would
be appropriate in this case.
Solve aplet
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Interpreting results
After Solve has returned a solution, press
in the Numeric
view for more information. You will see one of the following
three messages. Press
to clear the message.
Message
Condition
Zero
The Solve aplet found a point where
the value of the equation (or the root of
the expression) is zero within the
calculator’s 12-digit accuracy.
Sign Reversal
Solve found two points where the
value of the equation has opposite
signs, but it cannot find a point in
between where the value is zero. This
might be because either the two points
are neighbours (they differ by one in
the twelfth digit), or the equation is not
real-valued between the two points.
Solve returns the point where the value
is closer to zero. If the value of the
equation is a continuous real function,
this point is Solve’s best
approximation of an actual root.
Extremum
Solve found a point where the value of
the equation approximates a local
minimum (for positive values) or
maximum (for negative values). This
point may or may not be a root. Or:
Solve stopped searching at
9.99999999999E499, the largest
number the calculator can represent.
7-6
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If Solve could not find a solution, you will see one of the
following two messages.
Message
Condition
Bad Guess(es)
The initial guess lies outside the
domain of the equation. Therefore,
the solution was not a real number or
it caused an error.
Constant?
The value of the equation is the same
at every point sampled.
H I N T
It is important to check the information relating to the solve
process. For example, the solution that the Solve aplet finds is
not a solution, but the closest that the function gets to zero.
Only by checking the information will you know that this is
the case.
The Root-
Finder at work
You can watch the process of the root-finder calculating and
searching for a root. Immediately after pressing
to start
the root-finder, press any key except . You will see two
intermediate guesses and, to the left, the sign of the expression
evaluated at each guess. For example:
+ 2 2.219330555745
– 1 21.31111111149
You can watch as the root-finder either finds a sign reversal or
converges on a local extrema or does not converge at all. If
there is no convergence in process, you might want to cancel
the operation (press
guess.
) and start over with a different initial
Solve aplet
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Plotting to find guesses
The main reason for plotting in the Solve aplet is to help you
find initial guesses and solutions for those equations that have
difficult-to-find or multiple solutions.
Consider the equation of motion for an accelerating body:
at2
2
-------
x = v0t +
where x is distance, v is initial velocity, t is time, and a is
0
acceleration. This is actually two equations, y = x and
2
y = v t + (at ) / 2.
0
Since this equation is quadratic for t, there can be both a
positive and a negative solution. However, we are concerned
only with positive solutions, since only positive distance
makes sense.
1. Select the Solve aplet and enter the equation.
Select Solve
X
V
T
A
T
ꢁ
j 2
2. Find the solution for T (time) when X=30, V=2, and
A=4. Enter the values for X, V, and A; then highlight the
independent variable, T.
30
2
*e,4
*e,*e, to highlight T
7-8
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3. Use the Plot view to find an initial guess for T. First set
appropriate X and Y ranges in the Plot Setup. Since we
have an equation,X = V × T + A × T2 ⁄ 2 , the plot will
produce two graphs: one for Y = X and one for
Y = V × T + A × T2 ⁄ 2 . Since we have set X = 30 in
this example, one of the graphs will be Y = 30 .
Therefore, make the YRNG–5 to 35. Keep the XRNG
default of –6.5 to 6.5.
SETUP-PLOT
*e,
5
35
4. Plot the graph.
5. Move the cursor near the positive (right-side)
intersection. This cursor value will be an initial guess for
T.
*A,ꢀto move cursor to
the intersection.
The two points of
intersection show that
there are two solutions
for this equation. However, only positive values for x
make sense, so we want to find the solution for the
intersection on the right side of the y-axis.
6. Return to the Numeric view.
Note: the T-value is filled
in with the position of the
cursor from the Plot
view.
7. Ensure that the T value is highlighted, and solve the
equation.
Solve aplet
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8. Use this equation to solve for another variable, such as
velocity. How fast must a body’s initial velocity be in
order for it to travel 50 m within 3 seconds? Assume the
2
same acceleration, 4 m/s . Leave the last value of V as an
initial guess.
3
*k,*k,*k,
50
Using variables in equations
You can use any of the real variable names, A to Z and θ. Do
not use variable names defined for other types, such as M1 (a
matrix variable).
Home
variables
All home variables (other than those for aplet settings, like
Xminand Ytick) are global, which means they are shared
throughout the different aplets of the calculator. A value that
is assigned to a home variable anywhere remains with that
variable wherever its name is used.
Therefore, if you have defined a value for T (as in the above
example) in another aplet or even another Solve equation, that
value shows up in the Numeric view for this Solve equation.
When you then redefine the value for T in this Solve equation,
that value is applied to T in all other contexts (until it is
changed again).
This sharing allows you to work on the same problem in
different places (such as HOME and the Solve aplet) without
having to update the value everywhere whenever it is
recalculated.
H I N T
As the Solve aplet uses any existing variable values, be sure
to check for existing variable values that may affect the solve
process. (You can use
CLEAR to reset all values to zero
in the Solve aplet’s Numeric view if you wish.)
Aplet variables Functions defined in other aplets can also be referenced in the
Solve aplet. For example, if, in the Function aplet, you define
2
F1(X)=X +10, you can enter F1(X)=50in the Solve aplet
2
to solve the equation X +10=50.
7-10
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8
Statistics aplet
About the Statistics aplet
The Statistics aplet can store up to ten separate data sets at one
time. It can do one-variable or two-variable statistical analysis
of one or more sets of data.
The Statistics aplet starts with the Numeric view which is used
to enter data. The Symbolic view is used to specify which
columns contain data and which column contains frequencies.
You can also compute statistics values in HOME and recall
the values of specific statistics variables.
The values computed in the Statistics aplet are saved in
variables, and many of these variables are listed by the
function accessible from the Statistics aplet’s Numeric view
screen.
Getting started with the Statistics aplet
The following example asks you to enter and analyze the
advertising and sales data (in the table below), compute
statistics, fit a curve to the data, and predict the effect of more
advertising on sales.
Advertising minutes
(independent, x)
Resulting
Sales ($) (dependent, y)
2
1
3
5
5
4
1400
920
1100
2265
2890
2200
Statistics aplet
8-1
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Open the
Statistics aplet
1. Open the Statistics aplet and clear existing data by
pressing
.
Select Statistics
The Statistics aplet
starts in the Numerical
view.
1VAR/2VAR
menu key label
At any time the
Statistics aplet is configured for only one of two types of
statistical explorations: one-variable ( ) or two-
variable ( ). The 5th menu key label in the Numeric
view toggles between these two options and shows the
current option.
2. Select
.
You need to select
because in this example we are
analyzing a dataset comprising two variables: advertising
minutes and resulting sales.
Enter data
3. Enter the data into the columns.
2
3
5
1
5
4
*A, to move to the next
column
1400
1100
2890
920
2265
2200
8-2
Statistics aplet
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Choose fit and
data columns
4. Select a fit in the Symbolic setup view.
SETUP-SYMB
*e,ꢀ
Select Linear
You can define up to five explorations of two-variable
data, named S1to S5. In this example, we will create
just one: S1.
5. Specify the columns that hold the data you want to
analyze.
You could have entered
your data into columns
other than C1 and C2.
Explore
statistics
6. Find the mean advertising time (MEANX) and the mean
sales (MEANY).
MEANXis about 3.3
minutes and MEANYis
about $1796.
7. Scroll down to display the value for the correlation
coefficient (CORR). The CORRvalue indicates how well
the linear model fits the data.
*e,ꢀ9 times
The value is 0.8995 to
four significant digits.
Setup plot
8. Change the plotting range to ensure all the data points are
plotted (and select a different point mark, if you wish).
SETUP-PLOT
*A, 7
100
4000
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Plot the graph
9. Plot the graph.
Draw the
regression
curve
10. Draw the regression curve (a curve to fit the data points).
This draws the
regression line for the
best linear fit.
Display the
equation for
best linear fit
11. Return to the Symbolic view.
12. Display the equation for the best linear fit.
*e,ꢀto move to the FIT1
field
The full FIT1
expression is shown. The
slope (m) is 425.875.
The y-intercept (b) is about 376.25.
8-4
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Predict values
13. To find the predicted sales figure if advertising were to
go up to 6 minutes:
S (to highlight
Stat-Two)
*A,*e, (to highlight
PREDY)
6
14. Return to the Plot view.
15. Jump to the indicated point on the regression line.
*e,ꢀ
6
Observe the predicted y-
value in the left bottom
corner of the screen.
Entering and editing statistical data
The Numeric view (
) is used to enter data into the
Statistics aplet. Each column represents a variable named C0
to C9. After entering the data, you must define the data set in
the Symbolic view (
).
H I N T
A data column must have at least four data points to provide
valid two-variable statistics, or two data points for one-
variable statistics.
You can also store statistical data values by copying lists from
HOME into Statistics data columns. For example, in HOME,
L1
C1stores a copy of the list L1into the data-column
variable C1.
Statistics aplet
8-5
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Statistics aplet’s NUM view keys
The Statistics aplet’s Numeric view keys are:
Key
Meaning
Copies the highlighted item into the
edit line.
Inserts a zero value above the
highlighted cell.
Sorts the specified independent data
column in ascending or descending
order, and rearranges a specified
dependent (or frequency) data column
accordingly.
Switches between larger and smaller
font sizes.
A toggle switch to select one-variable
or two-variable statistics. This setting
affects the statistical calculations and
plots. The label indicates which setting
is current.
Computes descriptive statistics for
each data set specified in Symbolic
view.
Deletes the currently highlighted
value.
CLEAR
Clears the current column or all
columns of data. Press
CLEAR to
display a menu list, then select the
current column or all columns option,
and press
.
ꢀFXUVRUꢀ Moves to the first or last row, or first or
NH\
last column.
8-6
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Example
You are measuring the height of students in a classroom to
find the mean height. The first five students have the
following measurements 160cm, 165cm, 170cm, 175cm,
180cm.
1. Open the Statistics aplet.
Select
Statistics
2. Enter the measurement data.
160
165
170
175
180
3. Find the mean of the
sample.
Ensure the
/
menu key label reads
. Press
to
see the statistics
calculated from the sample data in C1. Press the *e,ꢀkeyꢀ
to scroll to further statistics.
Note that the title for the
column of statistics is
H1. There are 5 data set
definitions available for
one-variable statistics:
H1–H5. If data is entered
in C1, H1 is automatically set to use C1 for data, and the
frequency of each data point is set to 1. You can select
other columns of data from the Statistics Symbolic setup
view.
Statistics aplet
8-7
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4. Press
statistics window and
press key to see
to close the
the data set definitions.
The first column
indicates the associated
column of data for each data set definition, and the
second column indicates the constant frequency, or the
column that holds the frequencies.
The keys you can use from this window are:
Key
Meaning
Copies the column variable (or
variable expression) to the edit line for
editing. Press
when done.
Checks/unchecks the current data set.
Only the checkmarked data set(s) are
computed and plotted.
ꢀRUꢀ
Typing aid for the column variables
( ) or for the Fit expressions ( ).
Displays the current variable
expression in standard mathematical
form. Press
when done.
Evaluates the variables in the
highlighted column (C1, etc.)
expression.
ꢀ
Displays the menu for entering
variable names or contents of
variables.
Displays the menu for entering math
operations.
Deletes the highlighted variable or the
current character in the edit line.
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Key
Meaning (Continued)
CLEAR
Resets default specifications for the
data sets or clears the edit line (if it was
active).
Note: If
CLEAR is used the data
sets will need to be selected again
before re-use.
To continue our example, suppose that the heights of the rest
of the students in the class are measured, but each one is
rounded to the nearest of the five values first recorded. Instead
of entering all the new data in C1, we shall simply add another
column, C2, that holds the frequencies of our five data points
in C1.
Height (cm)
160
Frequency
5
3
8
2
1
165
170
175
180
5. Move the highlight bar
into the right column of
the H1 definition and
replace the frequency
value of 1 with the name
C2.
2
6. Return to the numeric view.
7. Enter the frequency data shown in the above table.
*A,ꢀ5
3
8
2
1
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8. Display the computed
statistics.
You can scroll down to
the mean. The mean
height is approximately
167.63cm.
9. Setup a histogram plot for the data.
SETUP-PLOT
Enter set up information
appropriate to your data.
10. Plot a histogram of the data.
Angle Setting
You can ignore the angle measurement mode unless your Fit
definition (in Symbolic view) involves a trigonometric
function. In this case, you should specify in the mode screen
whether the trigonometric units are to be interpreted in
degrees, radians, or grads.
Save data
The data that you enter is automatically saved. When you are
finished entering data values, you can press a key for another
Statistics view (like
aplet or HOME.
), or you can switch to another
Edit a data set
Delete data
In the Numeric view of the Statistics aplet, highlight the data
value to change. Type a new value and press , or press
to copy the value to the edit line for modification. Press
after modifying the value on the edit line.
•
•
•
To delete a single data item, highlight it and press
The values below the deleted cell will scroll up one row.
.
To delete a column of data, highlight an entry in that
column and press
CLEAR. Select the column name.
To delete all columns of data, press
CLEAR. Select
All columns.
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Insert data
Highlight the entry following the point of insertion. Press
then enter a number. It will write over the zero that was
inserted.
,
Sort data
values
1. In Numeric view, highlight the column you want to sort,
and press
.
2. Select the SORTORDERoption. You can choose either
Ascendingor Descending.
3. Specify the INDEPENDENTand DEPENDENTdata
columns. Sorting is by the independent column. For
instance, if Age is C1 and Income is C2 and you want to
sort by Income, then you make C2 the independent
column for the sorting and C1 the dependent column.
–
To sort just one column, choose Nonefor the
dependent column.
–
For one-variable statistics with two data columns,
specify the frequency column as the dependent
column.
4. Press
.
Defining a regression model (2VAR)
The Symbolic view includes an expression (Fit1 through Fit5)
that defines the regression model, or “fit”, to use for the
regression analysis of each two-variable data set.
There are three ways to select a regression model:
•
•
Accept the default option to fit the data to a straight line.
Select one of the available fit options in Symbolic Setup
view.
•
Enter your own mathematical expression in Symbolic
view. This expression will be plotted, but it will not be
fitted to the data points.
To choose the
fit
1. In Numeric view, make sure
is set.
2. Press SETUP-SYMB to display the Symbolic Setup
view. Highlight the Fit number (S1FIT to S5FIT) you
want to define.
3. Press
and select from the following list. Press
when done. The regression formula for the fit is
displayed in Symbolic view.
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Fit models
Eight fit models are available:
Fit model
Meaning
Linear
(Default.) Fits the data to a straight
line, y = mx+b. Uses a least-squares
fit.
Logarithmic
Fits to a logarithmic curve,
y = m lnx + b.
mx
Exponential
Power
Fits to an exponential curve, y = be
.
m
Fits to a power curve, y = bx .
Quadratic
Fits to a quadratic curve,
y = ax +bx+c. Needs at least three
2
points.
Cubic
Fits to a cubic curve,
y = ax +bx +cx+d. Needs at least
3
2
four points.
Logistic
Fits to a logistic curve,
L
--------------------------
y =
,
1 + ae(–bx)
where L is the saturation value for
growth. You can store a positive real
value in L, or—if L=0—let L be
computed automatically.
UserDefined Define your own expression (in
Symbolic view.)
To define your
own fit
1. In Numeric view, make sure
2. Display the Symbolic view.
is set.
3. Highlight the Fit expression (Fit1, etc.) for the desired
data set.
4. Type in an expression and press
.
The independent variable must be X, and the expression
must not contain any unknown variables.
Example:1.5 × cosx + 0.3 × sinx .
This automatically changes the Fit type (S1FIT, etc.) in the
Symbolic Setup view to User Defined.
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Computed statistics
One-variable
Statistic
Definition
NΣ
Number of data points.
TOTΣ
Sum of data values (with their
frequencies).
MEANΣ
PVARΣ
SVARΣ
PSDEV
Mean value of data set.
Population variance of data set.
Sample variance of data set.
Population standard deviation of data
set.
SSDEV
MINΣ
Q1
Sample standard deviation of data set.
Minimum data value in data set.
First quartile: median of ordinals to
left of median.
MEDIAN
Q3
Median value of data set.
Third quartile: median of ordinals to
right of median.
MAXΣ
Maximum data value in data set.
When the data set contains an odd number of values, the data
set’s median value is not used when calculating Q1and Q3in
the table above. For example, for the following data set:
{3,5,7,8,15,16,17}
only the first three items, 3, 5, and 7 are used to calculate Q1,
and only the last three terms, 15, 16, and 17 are used to
calculate Q3.
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Two-variable
Statistic
MEANX
ΣX
Definition
Mean of x- (independent) values.
Sum of x-values.
2
ΣX2
Sum of x -values.
MEANY
ΣY
Mean of y- (dependent) values.
Sum of y-values.
2
ΣY2
Sum of y -values.
ΣXY
Sum of each xy.
SCOV
Sample covariance of independent
and dependent data columns.
PCOV
CORR
Population covariance of independent
and dependent data columns
Correlation coefficient of the
independent and dependent data
columns for a linear fit only
(regardless of the Fit chosen). Returns
a value from 0 to 1, where 1 is the best
fit.
RELERR
The relative error (for the selected fit).
Provides a measure of accuracy for
the fit.
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Plotting
You can plot:
•
•
•
histograms (
)
box-and-whisker plots (
scatter plots of data (
)
).
Once you have entered your data (
), defined your data
set (
), and defined your Fit model for two-variable
statistics (
SETUP-SYMB), you can plot your data. You
can select up to five scatter or box-and-whisker plots at a time.
You can plot only one histogram at a time.
To plot statistical
data
1. In Symbolic view (
you want to plot.
), select (
) the data sets
2. For one-variable data (
), select the plot type in Plot
Setup (
SETUP-PLOT). Highlight STATPLOT, press
, select either Histogramor BoxWhisker, and
press
.
3. For any plot, but especially for a histogram, adjust the
plotting scale and range in the Plot Setup view. If you
find histogram bars too fat or too thin, you can adjust
them with the HWIDTHsetting.
4. Press
. If you have not adjusted the Plot Setup
select Auto Scale
yourself, you can try
.
H I N T
Auto Scale can be relied upon to give a good starting scale
which can then be adjusted in the Plot Setup view.
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Plot types
Histogram
One-variable statistics. The
numbers below the plot mean
that the current bar (where the
cursor is) starts at 0 and ends at
2 (not including 2), and the
frequency for this column,
(that is, the number of data elements that fall between 0 and 2)
is 1. You can see information about the next bar by pressing
the *A,ꢀkey.
Box and
Whisker Plot
One-variable statistics. The
left whisker marks the
minimum data value. The box
marks the first quartile, the
median, and the third quartile.
The right whisker marks the
maximum data value.
Scatter Plot
Two-variable statistics. The
numbers below the plot
indicate that the cursor is at the
first data point for S2, at (1, 6).
Press *A, to move to the next
data point and display
information about it.
To connect the data points as
they are plotted, checkmark
CONNECT in the second page
of the Plot Setup. This is not a
regression curve.
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Fitting a curve to 2VAR data
In the Plot view, press
. This draws a curve to fit the
checked two-variable data set(s). See “To choose the fit” on
page 8-11.
The expression in Fit2
shows that the
slope=1.98082191781and
the y-intercept=2.2657.
Correlation
coefficient
The correlation coefficient is stored in the CORRvariable. It is
a measure of fit to a linear curve only. Regardless of the Fit
model you have chosen, CORRrelates to the linear model.
Relative Error
The relative error is stored in a variable named RELERR. The
relative error provides a measure of fit accuracy for all fits,
and it does depend on the Fit model you have chosen.
The relative error is a measure of the error between predicted
values and actual values based on the specified Fit. A smaller
number means a better fit.
H I N T
In order to access these variables after you plot a set of
statistics, you must press
to access the numeric view
and then to display the correlation values. The values
are stored in the variables when you access the Symbolic
view.
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Setting up the plot (Plot setup view)
The Plot Setup view (
SETUP-PLOT) sets most of the
same plotting parameters as it does for the other built-in
aplets.
See “Setting up the plot (Plot view setup)” on page 2-5.
Settings unique to the Statistics aplet are as follows:
Plot type (1VAR)
Histogram width
STATPLOTenables you to specify either a histogram or a
box-and-whisker plot for one-variable statistics (when
is set). Press
to change the highlighted setting
HWIDTHenables you to specify the width of a histogram bar.
This determines how many bars will fit in the display, as well
as how the data is distributed (how many values each bar
represents).
Histogram range
HRNGenables you to specify the range of values for a set of
histogram bars. The range runs from the left edge of the
leftmost bar to the right edge of the rightmost bar. You can
limit the range to exclude any values you suspect are outliers.
Plotting mark
(2VAR)
S1MARKthrough S5MARKenables you to specify one of five
symbols to use to plot each data set. Press
highlighted setting.
to change the
Connected points CONNECT(on the second page), when checkmarked,
connects the data points as they are plotted. The resulting line
is not the regression curve. The order of plotting is according
to the ascending order of independent values. For instance, the
data set (1,1), (3,9), (4,16), (2,4) would be plotted and traced
in the order (1,1), (2,4), (3,9), (4,16).
(2VAR)
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Trouble-shooting a plot
If you have problems plotting, check that you have the
following:
•
•
•
•
The correct
view).
or
menu label on (Numeric
The correct fit (regression model), if the data set is two-
variable.
Only the data sets to compute or plot are checkmarked
(Symbolic view).
The correct plotting range. Try using
Auto
Scale(instead of ), or adjust the plotting
parameters (in Plot Setup) for the ranges of the axes and
the width of histogram bars (HWIDTH).
•
•
In
mode, ensure that both paired columns contain
data, and that they are the same length.
In
mode, ensure that a paired column of frequency
values is the same length as the data column that it refers
to.
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Exploring the graph
The Plot view has menu keys for zooming, tracing, and
coordinate display. There are also scaling options under
. These options are described in“Exploring the graph”
on page 2-7.
Statistics aplet’s PLOT view keys
Key
Meaning
CLEAR
Erases the plot.
Offers additional pre-defined views for
splitting the screen, overlaying plots,
and autoscaling the axes.
*>,
*A,
Moves cursor to far left or far right.
Displays ZOOM menu.
Turns trace mode on/off. The white box
appears next to the option when Trace
mode is active.
Turns fit mode on/off. Turning
draws a curve to fit the data points
according to the current regression
model.
on
(2var
Enables you to specify a value on the
statistics only) line of best fit to jump to or a data point
number to jump to.
Displays the equation of the regression
curve.
Hides and displays the menu key labels.
When the labels are hidden, any menu
key displays the (x,y) coordinates.
Pressing
labels.
redisplays the menu
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Calculating predicted values
The functions PREDXand PREDYestimate (predict) values
for X or Y given a hypothetical value for the other. The
estimation is made based on the curve that has been calculated
to fit the data according to the specified fit.
Find predicted
values
1. In Plot view, draw the regression curve for the data set.
2. Press *e, to move to the regression curve.
3. Press
and enter the value of X. The cursor jumps to
the desired point on curve and the coordinate display
shows X and the predicted value of Y.
In HOME,
–
Enter PREDX(y-value)
to find the predicted (estimated) value for the
independent variable given a hypothetical dependent
value.
–
Enter PREDY(x-value) to find the predicted value of
the dependent variable given a hypothetical
independent variable.
You can type PREDXand PREDYinto the edit line, or
you can copy these function names from the MATH
menu under the Stat-Two category.
H I N T
In cases where more than one fit curve is displayed, the
PREDYfunction uses the most recently calculated curve. In
order to avoid errors with this function, uncheck all fits except
the one that you want to work with, or use the Plot View
method.
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9
Inference aplet
About the Inference aplet
The Inference capabilities include calculation of confidence
intervals and hypothesis tests based on the Normal
Z–distribution or Student’s t–distribution.
Based on the statistics from one or two samples, you can test
hypotheses and find confidence intervals for the following
quantities:
•
•
•
•
mean
proportion
difference between two means
difference between two proportions
Example data
When you first access an input form for an Inference test, by
default the input form contains example data. This example
data is designed to return meaningful results that relate to the
test. It is useful for gaining an understanding of what the test
does, and for demonstrating the test. The calculator’s on–line
help provides a description of what the example data
represents.
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Getting started with the Inference aplet
This example describes the Inference aplet’s options and
functionality by stepping you through an example using the
example data for the Z–Test on 1 mean.
Open the
1. Open the Inference aplet.
Inference aplet
Select Inferential
.
The Inference aplet opens
in the Symbolic view.
Inference aplet’s SYMB view keys
The table below summarizes the options available in
Symbolic view.
Hypothesis Tests
Confidence Intervals
Z: 1 µ, the Z–Test
on 1 mean
Z–Int: 1 µ, the confidence
interval for 1 mean, based on the
Normal distribution
Z: µ – µ , the
Z–Int: µ – µ , the confidence
1
2
1
2
Z–Test on the
difference of two
means
interval for the difference of two
means, based on the Normal
distribution
Z: 1 P, the Z–Test
on 1 proportion
Z–Int: 1 P, the confidence
interval for 1 proportion, based
on the Normal distribution
Z: P – P , the
Z–Int: P – P , the confidence
1
2
1
2
Z–Test on the
difference in two
proportions
interval for the difference of two
proportions, based on the Normal
distribution
T: 1 µ, the T–Test
on 1 mean
T–Int: 1 µ, the confidence
interval for 1 mean, based on the
Student’s t–distribution
T: µ –µ , the
T–Int: µ – µ , the confidence
1
2
1
2
T–Test on the
difference of two
means
interval for the difference of two
means, based on the Student’s
t–distribution
9-2
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If you choose one of the hypothesis tests, you can choose the
alternative hypothesis to test against the null hypothesis. For
each test, there are three possible choices for an alternative
hypothesis based on a quantitative comparison of two
quantities. The null hypothesis is always that the two
quantities are equal.Thus, the alternative hypotheses cover the
various cases for the two quantities being unequal: <, >, and ≠.
In this section, we will use the example data for the Z–Test on
1 mean to illustrate how the aplet works and what features the
various views present.
Define the
inferential
method
1. Select the Hypothesis Testinferential method.
Select HYPOTH TEST
2. Define the type of test.
*e,
Z–Test: 1 µ
3. Select an alternative hypothesis.
*e,
µ< µ 0
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Enter data
4. Enter the sample statistics and population parameters that
define the chosen test or interval.
SETUP-NUM
The table below lists the fields in this view for our current
Z–Test: 1 µ example.
Field name
Definition
µ0
Assumed population mean
Population standard deviation
Sample mean
σ
x
n
Sample size
α
Alpha level for the test
By default, each field already contains a value. These
values constitute the example database and are explained
in the
feature of this aplet.
Displayon-line
help
5. Display the on-line help.
6. To close the on-line help,
press
.
Display test
results in
numeric
format
7. Display the test results in numeric format.
The test distribution value
and its associated
probability are displayed,
along with the critical
value(s) of the test and the associated critical value(s) of
the statistic.
Note: You can access the on-line help in Numeric view.
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Plot test
results
8. Display a graphic view of the test results.
Horizontal axes are
presented for both the
distribution variable and
the test statistic. A generic
bell curve represents the probability distribution
function. Vertical lines mark the critical value(s) of the
test, as well as the value of the test statistic. The rejection
R
region is marked
and the test numeric results are
displayed between the horizontal axes.
Importing Sample Statistics from the Statistics
aplet
The Inference aplet supports the calculation of confidence
intervals and the testing of hypotheses based on data in the
Statistics aplet. Computed statistics for a sample of data in a
column in any Statistics-based aplet can be imported for use
in the Inference aplet. The following example illustrates the
process.
A calculator produces the following 6 random numbers:
0.529, 0.295, 0.952, 0.259, 0.925, and 0.592
Open the
1. Open Statistics aplet. Note: Reset current settings.
Statistics aplet
Select
Statistics
The Statistics aplet opens
in the Numeric view.
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Enter data
2. In the C1 column, enter the random numbers produced
by the calculator.
529
295
952
259
925
592
H I N T
If the Decimal Mark setting in the Modes input form
(
MODES) is set to Comma, use
instead of
.
3. If necessary, select 1–variable statistics. Do this by
pressing the fifth menu key until
its menu label.
is displayed as
Calculate
statistics
4. Calculate statistics.
The mean of 0.592 seems
a little large compared to the expected value of 0.5. To
see if the difference is statistically significant, we will use
the statistics computed here to construct a confidence
interval for the true mean of the population of random
numbers and see whether or not this interval contains 0.5.
5. Press
to close the computed statistics window.
Open
6. Open the Inference aplet and clear current settings.
Inference aplet
Select
Inference
9-6
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Choose
inference
method and
type
7. Choose an inference method.
SelectꢀCONF INTERVAL
8. Choose a distribution statistic type.
*e,ꢀ
Select T-Int: 1 µ
Set up the
interval
calculation
9. Set up the interval calculation. Note: The default values
are sample data from the on-line help example.
SETUP-NUM
Import the data 10. Import the data from the Statistics aplet. Note: The data
from C1 is displayed by default.
Note: If there are other
columns of data in the
Statistics aplet, you could
select a column and press
to see the statistics before importing them into the
Numeric Setup view. Also, if there is more than one aplet
based on the Statistics aplet, you are prompted to choose
one.
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11. Specify a 90% confidence interval in the C:field.
*e,*e,*e, to move to the
C:field
0.9
Display
Numeric view
12. Display the confidence interval in the Numeric view.
Note: The interval setting is 0.5.
Display Plot
view
13. Display the confidence interval in the Plot view.
You can see, from the
second text row, that the
mean is contained within the 90% confidence interval
(CI) of 0.3469814 to 0.8370186.
Note: The graph is a simple, generic bell-curve. It is not
meant to accurately represent the t-distribution with 5
degrees of freedom.
9-8
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Hypothesis tests
You use hypothesis tests to test the validity of hypotheses that
relate to the statistical parameters of one or two populations.
The tests are based on statistics of samples of the populations.
The HP 39G/40G hypothesis tests use the Normal
Z–distribution or Student’s t-distribution to calculate
probabilities.
One–Sample Z–Test
Menu name
Z–Test: 1 µ
On the basis of statistics from a single sample, the 1 mean
Z–Test measures the strength of the evidence for a selected
hypothesis against the null hypothesis. The null hypothesis is
that the population mean equals a specified value Η : µ –µ .
0
0
You select one of the following alternative hypotheses against
which to test the null hypothesis:
H1ꢁµ < µ0
H1:µ > µ0
H1:µ ≠ µ0
Inputs
The inputs are:
Field name
Definition
x
Sample mean.
n
Sample size.
µ
Hypothetical population mean.
Population standard deviation.
Significance level.
0
σ
α
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Results
The results are:
Result
Test Z
Prob
Description
Z–test statistic.
Probability associated with the
Z–Test statistic.
Critical Z
Boundary values of Z associated
with the α level that you supplied.
Boundary values of x required by
the α value that you supplied.
Critical x
Two–Sample Z–Test
Menu name
Z–Test: µ1–µ2
On the basis of two samples, each from a separate population,
this test measures the strength of the evidence for a selected
hypothesis against the null hypothesis. The null hypothesis is
that the mean of the two populations are equal (H : µ = µ ).
0
1
2
You select one of the following alternative hypotheses against
which to test the null hypothesis:
H1ꢁµ1 < µ2
H1ꢁµ1 > µ2
H1ꢁµ1 ≠ µ2
Inputs
The inputs are:
Field name
Definition
Sample 1 mean.
x1
Sample 2 mean.
x2
n1
n2
σ1
σ2
α
Sample 1 size.
Sample 2 size.
Population 1 standard deviation.
Population 2 standard deviation.
Significance level.
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Results
The results are:
Result
Test Z
Prob
Description
Z–Test statistic
Probability associated with the
Z–Test statistic.
Critical Z
Boundary value of Z associated
with the α level that you
supplied.
One–Proportion Z–Test
Menu name
Z–Test: 1P
On the basis of statistics from a single sample, this test
measures the strength of the evidence for a selected
hypothesis against the null hypothesis. The null hypothesis is
that the proportion of successes in the two populations is
equal. H0π = π0
You select one of the following alternative hypotheses against
which to test the null hypothesis:
H1:π < π0
H1:π > π0
H1:π ≠ π0
Inputs
The inputs are:
Field name
Definition
x
Number of successes in the sample.
Sample size.
n
π
α
Population proportion of successes.
Significance level.
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Results
The results are:
Result
Test P
Test Z
Prob
Description
Proportion of successes in the sample.
Z–Test statistic.
Probability associated with the Z–Test
statistic.
Critical Z
Boundary value of Z associated with the
level you supplied.
Two–Proportion Z–Test
Menu name
Z–Test: P1–P2
On the basis of statistics from two samples, each from a
different population, the 2 proportion Z–Test measures the
strength of the evidence for a selected hypothesis against the
null hypothesis. The null hypothesis is that the proportion of
successes in the two populations is equal.
(H : π = π ).
0
1
2
You select one of the following alternative hypotheses against
which to test the null hypothesis:
H1ꢁπ1 < π2
H1ꢁπ1 > π2
H1ꢁπ1 ≠ π2
Inputs
The inputs are:
Field name
Definition
;1
X2
n1
n2
α
Sample 1 mean.
Sample 2 mean.
Sample 1 size.
Sample 2 size.
Significance level.
9-12
Inference aplet
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Results
The results are:
Result
Description
Test P1–P2
Difference between the
proportions of successes in the
two samples.
Test Z
Prob
Z–Test statistic.
Probability associated with the
Z–Test statistic.
Critical Z
Boundary values of Z associated
with the α level that you supplied.
One–Sample T–Test
Menu name
T–Test: 1 µ
The One–sample T–Test is used when the population standard
deviation is not known. On the basis of statistics from a single
sample, this test measures the strength of the evidence for a
selected hypothesis against the null hypothesis. The null
hypothesis is that the sample mean has some assumed value,
Η :µ = µ
0
0
You select one of the following alternative hypotheses against
which to test the null hypothesis:)
H1:µ < µ0
H1:µ > µ0
H1:µ ≠ µ0
Inputs
The inputs are:
Field name
Definition
Sample mean.
x
Sx
n
Sample standard deviation.
Sample size.
µ0
α
Hypothetical population mean.
Significance level.
Inference aplet
9-13
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Results
The results are:
Result
Test T
Prob
Description
T–Test statistic.
Probability associated with the
T–Test statistic.
Critical T
Boundary value of T associated
with the α level that you supplied.
Boundary value of x required by
the α value that you supplied.
Critical x
Two–Sample T–Test
Menu name
T–Test: µ1 – µ2
The Two–sample T–Test is used when the population
standard deviation is not known. On the basis of statistics
from two samples, each sample from a different population,
this test measures the strength of the evidence for a selected
hypothesis against the null hypothesis. The null hypothesis is
that the two populations means are equal (H : µ = µ ).
0
1
2
You select one of the following alternative hypotheses against
which to test the null hypothesis
H1:µ1 < µ2
H1:µ1 > µ2
H1:µ1 ≠ µ2
9-14
Inference aplet
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Inputs
The inputs are:
Field name Definition
Sample 1 mean.
x1
Sample 2 mean.
x2
S1
Sample 1 standard deviation.
Sample 2 standard deviation.
Sample 1 size.
S2
n1
n2
Sample 2 size.
α
Significance level.
_Pooled?
Check this option to pool samples based on
their standard deviations.
Results
The results are:
Result
Test T
Prob
Description
T–Test statistic.
Probability associated with the T–Test
statistic.
Critical T
Boundary values of T associated with
the α level that you supplied.
Inference aplet
9-15
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Confidence intervals
The confidence interval calculations that the HP 39G/40G can
perform are based on the Normal Z–distribution or Student’s
t–distribution.
One–Sample Z–Interval
Menu name
Z–INT: 1 µ
This option uses the Normal Z–distribution to calculate a
confidence interval for µ, the true mean of a population, when
the true population standard deviation, σ, is known.
Inputs
The inputs are:
Field name Definition
Sample mean.
x
σ
n
Population standard deviation.
Sample size.
C
Confidence level.
Results
The results are:
Result
Critical Z
µ min
Description
Critical value for Z.
Lower bound for µ.
Upper bound for µ.
µ max
9-16
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Two–Sample Z–Interval
Menu name
Z–INT: µ1– µ2
This option uses the Normal Z–distribution to calculate a
confidence interval for the difference between the means of
two populations, µ – µ , when the population standard
1
2
deviations, σ and σ , are known.
1
2
Inputs
The inputs are:
Field name Definition
Sample 1 mean.
x1
Sample 2 mean.
x2
n1
n2
σ1
σ2
C
Sample 1 size.
Sample 2 size.
Population 1 standard deviation.
Population 2 standard deviation.
Confidence level.
Results
The results are:
Result
Description
Critical Z
Critical value for Z.
Lower bound for µ – µ .
∆µ Min
∆µ Max
1
2
Upper bound for µ – µ .
1
2
Inference aplet
9-17
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One–Proportion Z–Interval
Menu name
Z–INT: 1 P
This option uses the Normal Z–distribution to calculate a
confidence interval for the proportion of successes in a
population for the case in which a sample of size, n, has a
number of successes, x.
Inputs
The inputs are:
Field name Definition
x
Sample success count.
Sample size.
n
C
Confidence level.
Results
The results are:
Result
Critical Z
π Min
Description
Critical value for Z.
Lower bound for π.
Upper bound for π.
π Max
9-18
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Two–Proportion Z–Interval
Menu name
Z–INT: P1 – P2
This option uses the Normal Z–distribution to calculate a
confidence interval for the difference between the proportions
of successes in two populations.
Inputs
The inputs are:
Field name Definition
Sample 1 success count.
Sample 2 success count.
x1
x2
n1
n2
C
Sample 1 size.
Sample 2 size.
Confidence level.
Results
The results are:
Result
Description
Critical Z
Critical value for Z.
Lower bound for the difference between
the proportions of successes.
∆π Min
∆π Max
Upper bound for the difference between the
proportions of successes.
Inference aplet
9-19
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One–Sample T–Interval
Menu name
T–INT: 1 µ
This option uses the Student’s t–distribution to calculate a
confidence interval for µ, the true mean of a population, for
the case in which the true population standard deviation, σ, is
unknown.
Inputs
The inputs are:
Field name Definition
Sample mean.
x
Sx
n
Sample standard deviation.
Sample size.
C
Confidence level.
Results
The results are:
Result
Critical T
µ Min
Description
Critical value for T.
Lower bound for µ.
Upper bound for µ.
µ Max
9-20
Inference aplet
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Two–Sample T–Interval
Menu name
T–INT: µ1 – µ2
This option uses the Student’s t–distribution to calculate a
confidence interval for the difference between the means of
two populations, µ − µ , when the population standard
1
2
deviations, σ and σ , are unknown.
1
2
Inputs
The inputs are:
Field name Definition
Sample 1 mean.
x 1
Sample 2 mean.
x 2
s1
Sample 1 standard deviation.
Sample 2 standard deviation.
Sample 1 size.
s2
n1
n2
Sample 2 size.
C
Confidence level.
_Pooled
Whether or not to pool the samples based
on their standard deviations.
Results
The results are:
Result
Description
Critical T
Critical value for T.
Lower bound for µ – µ .
∆µ Min
∆µ Max
1
2
Upper bound for µ – µ .
1
2
Inference aplet
9-21
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10
Using mathematical functions
Math functions
The HP 39G/40G contains many math functions. The
functions are grouped in categories. For example, the Matrix
category contains functions for manipulating matrices. The
Probability category (shown as Prob.on the MATH menu)
contains functions for working with probability.
To use a math function, you enter the function onto the
command line, and include the arguments in parentheses after
the function. You can also select a math function from the
MATH menu.
The MATH menu
The MATH menu provides access to math functions and
programming constants.
The MATH menu is organized by category. For each category
of functions on the left, there is a list of function names on the
right. The highlighted category is the current category.
•
When you press
functions. The menu key
, you see the menu list of Math
indicates that the MATH
FUNCTIONS menu list is active.
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To select a
function
1. Press
to display the MATH menu. The categories
appear in alphabetical order. Press *e, or *k, to scroll
through the categories. To skip directly to a category,
press the first letter of the category’s name. Note: You do
not need to press
first.
2. The list of functions (on the right) applies to the currently
highlighted category (on the left). Use *A, and *>, to
switch between the category list and the function list.
3. Highlight the name of the function you want and press
. This copies the function name (and an initial
parenthesis, if appropriate) to the edit line.
Function categories
•
•
Calculus
•
•
•
•
•
Loop
•
Stat–Two
(Two–variable
statistics)
Complex
numbers
Matrices
Polynomial
Probability
Real–numbers
•
•
•
Symbolic
Tests
•
•
•
Constant
Hyperbolic trig
Lists
Trigonometry
10-2
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Math functions by category
Following are definitions for all categories of functions except
List, Matrix, and Statistics, each of which appears in its own
chapter. Except for the keyboard operations, which do not
appear in the MATH menu, all other functions are listed by
their category in the MATH menu.
Syntax
Each function’s definition includes its syntax, that is, the
exact order and spelling of a function’s name, its delimiters
(punctuation), and its arguments. Note that the syntax for a
function does not require spaces.
Functions common to keyboard and menus
These functions are common to the keyboard and menus.
π
For a description, see “p” on
page 10-9.
ARG
For a description, see “ARG” on
page 10-8.
For a description, see “D” on
page 10-7.
AND
!
For a description, see “AND” on
page 10-21.
For a description, see “!” on
page 10-13.
∑
For a description, see “S” on
page 10-11.
EEX
For a description, see “Scientific
notation (powers of 10)” on
page 1-19.
)
For a description, see “S” on
page 10-7.
The multiplicative inverse function
finds the inverse of a square matrix,
and the multiplicative inverse of a
real or complex number. Also
works on a list containing only
these object types.
x–1
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Keyboard functions
The most frequently used functions are available directly from
the keyboard. Many of the keyboard functions also accept
complex numbers as arguments.
,
,
,
Add, Subtract, Multiply, Divide. Also accepts complex
numbers, lists and matrices.
value1+ value2, etc.
x
e
Natural exponential. Also accepts complex numbers.
e^value
Example
e^5returns 148.413159103
Natural logarithm. Also accepts complex numbers.
LN(value)
Example
LN(1)returns 0
x
10
Exponential (antilogarithm). Also accepts complex numbers.
10^value
Example
10^3 returns 1000
Common logarithm. Also accepts complex numbers.
LOG(value)
Example
LOG(100) returns 2
,
,
Sine, cosine, tangent. Inputs and outputs depend on the
current angle format (Degrees, Radians, or Grads).
SIN(value)
COS(value)
TAN(value)
Example
TAN(45) returns 1 (Degrees mode).
10-4
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–1
ASIN
Arc sine: sin x. Output range is from –90° to 90°, –π/2 to
π/2, or –100 to 100 grads. Inputs and outputs depend on the
current angle format. Also accepts complex numbers.
ASIN(value)
Example
ASIN(1) returns 90 (Degrees mode).
–1
ACOS
Arc cosine: cos x. Output range is from 0° to 180°, 0 to π, or
0 to 200 grads. Inputs and outputs depend on the current angle
format. Also accepts complex numbers. Output will be
complex for values outside the normal COS domain of
–1 ≤x ≤1 .
ACOS(value)
Example
ACOS(1)returns 0(Degrees mode).
–1
ATAN
Arc tangent: tan x. Output range is from –90° to 90°, 2π/2 to
π/2, or –100 to 100 grads. Inputs and outputs depend on the
current angle format. Also accepts complex numbers.
ATAN(value)
Example
ATAN(1)returns 45(Degrees mode).
ꢁ
Square. Also accepts complex numbers.
2
value
Example
2
18 returns 324
√
Square root. Also accepts complex numbers.
√value
Example
324 returns 18
Negation. Also accepts complex numbers.
–value
Example
-(1,2) returns (-1,-2)
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* N,
Power (x raised to y). Also accepts complex numbers.
value^power
Example
2^8 returns 256
ABS
Absolute value. For a complex number, this is x2 + y2 .
ABS(value)
ABS((x,y))
Example
ABS(–1) returns 1
ABS((1,2))returns 2.2360679775
n
Takes the nth root of x.
root NTHROOT value
Example
3NTHROOT8 returns 2
10-6
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Calculus functions
The symbols for differentiation and integration are available
directly form the keyboard— and ) respectively—as
well as from the MATH menu.
%
Differentiates expression with respect to the variable of
differentiation. From the command line, use a formal name
(S1, etc.) for a non-numeric result. See “Finding derivatives”
on page 10-23.
%variable(expression)
Example
2
%s1(s1 +3*s1)returns 2*s1+3
)
Integrates expression from lower to upper limits with respect
to the variable of integration. To find the definite integral,
both limits must have numeric values (that is, be numbers or
real variables). To find the indefinite integral, one of the limits
must be a formal variable (s1, etc.).
)(lower,upper,expression,variable)
See “Using formal variables” on page 10-22 for further
details.
Example
)(0,s1,2*X+3,X)
*k,
finds the
indefinite result 3*s1+2*(s1^2/2)
See “To find the indefinite integral using formal
variables” on page 10-25 for more information on
finding indefinite integrals.
TAYLOR
Calculates the nth order Taylor polynomial of expression at
the point where the given variable = 0.
TAYLOR(expression,variable,n)
Example
2
TAYLOR(1 + sin(s1) ,s1,5)with Radians angle
measure and Fraction number format (set in MODES)
returns 1+s1^2-1/3*s1^4.
Using mathematical functions
10-7
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Complex number functions
These functions are for complex numbers only. You can also
use complex numbers with all trigonometric and hyperbolic
functions, and with some real-number and keyboard
functions. Enter complex numbers in the form (x,y), where x
is the real part and y is the imaginary part.
ARG
Argument. Finds the angle defined by a complex number.
Inputs and outputs use the current angle format set in Modes.
ARG((x,y))
Example
ARG((3,3)) returns 45 (Degrees mode)
CONJ
Complex conjugate. Conjugation is the negation (sign
reversal) of the imaginary part of a complex number.
CONJ((x,y))
Example
CONJ((3,4)) returns (3,-4)
IM
Imaginary part, y, of a complex number, (x,y).
IM ((x,y))
Example
IM((3,4)) returns 4
RE
Real part x, of a complex number, (x,y).
RE((x,y))
Example
RE((3,4)) returns 3
10-8
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Constants
The HP 39G/40G has an internal numeric representation for
these constants.
e
Natural logarithm base. Internally represented as
2.71828182846.
e
i
Imaginary value for √−1 , the complex number (0,1).
i
MAXREAL
Maximum real number. Internally represented as
499
9.99999999999 x10
.
MAXREAL
MINREAL
Minimum real number. Internally represented as 1 × 10–499
.
MINREAL
π
Internally represented as 3.14159265359.
π
Hyperbolic trigonometry
The hyperbolic trigonometry functions can also take complex
numbers as arguments.
–1
ACOSH
ASINH
ATANH
COSH
SINH
Inverse hyperbolic cosine : cosh x.
ACOSH(value)
–1
Inverse hyperbolic sine : sinh x.
ASINH(value)
–1
Inverse hyperbolic tangent : tanh x.
ATANH(value)
Hyperbolic cosine
COSH(value)
Hyperbolic sine.
SINH(value)
TANH
Hyperbolic tangent.
TANH(value)
Using mathematical functions
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ALOG
EXP
Antilogarithm (exponential). This is more accurate than
10^xdue to limitations of the power function.
ALOG(value)
Natural exponential. This is more accurate than ex due to
limitations of the power function.
EXP(value)
x
EXPM1
LNP1
Exponent minus 1 : e –1. This is more accurate than EXP
when x is close to zero.
EXPM1(value)
Natural log plus 1 : ln(x+1). This is more accurate than the
natural logarithm function when x is close to zero.
LNP1(value)
List functions
These functions work on list data. See “List functions” on
page 13-7.
10-10
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Loop functions
The loop functions display a result after evaluating an
expression a given number of times.
ITERATE
Repeatedly for #times evaluates an expression in terms of
variable. The value for variable is updated each time, starting
with initialvalue.
ITERATE(expression,variable,initialvalue,
#times)
Example
2
ITERATE(X ,X,2,3) returns 256
RECURSE
Provides a method of defining a sequence without using the
Symbolic view of the Sequence aplet. If used with | (“where”),
RECURSE will step through the evaluation.
RECURSE(sequencename,term-n,term1,term2)
Example
RECURSE(U,U(N-1)*N,1,2)
U1(N)
Stores a factorial–calculating function named U1.
When you enter U1(5), for example, the function
calculates 5! (120).
Σ
Summation. Finds the sum of expression with respect to
variable from initialvalue to finalvalue.
Σ(variable=initialvalue,finalvalue,expression)
Example
2
Σ(C=1,5,C )returns 55.
Matrix functions
These functions are for matrix data stored in matrix variables.
See “Matrix functions and commands” on page 12-9.
Using mathematical functions
10-11
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Polynomial functions
Polynomials are products of constants (coefficients) and
variables raised to powers (terms).
POLYCOEF
Polynomial coefficients. Returns the coefficients of the
polynomial with the specified roots.
POLYCOEF([roots])
Example
To find the polynomial with roots 2, –3, 4, –5:
POLYCOEF([2,-3,4,-5]) returns[1,2,-25,
4
3
2
-26,120], representing x +2x –25x –26x+120.
POLYEVAL
Polynomial evaluation. Evaluates a polynomial with the
specified coefficients for the value of x.
POLYEVAL([coefficients],value)
Example
4
3
2
For x +2x –25x –26x+120:
POLYEVAL([1,2,-25,-26,120],8)returns
3432.
POLYFORM
POLYROOT
Polynomial form. Creates a polynomial in variable1 from
expression.
POLYFORM(expression,variable1)
Example
POLYFORM((X+1)^2+1,X)returns X^2+2*X+2.
Polynomial roots. Returns the roots for the nth-order
polynomial with the specified n+1 coefficients.
POLYROOT([coefficients])
Example
4
3
2
For x +2x –25x –26x+120:
POLYROOT([1,2,-25,-26,120])returns
[2,-3,4,-5].
10-12
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H I N T
The results of POLYROOT will often not be easily seen in
HOME due to the number of decimal places, especially if they
are complex numbers. It is better to store the results of
POLYROOT to a matrix.
For example, POLYROOT([1,0,0,-8]
M1will store
the three complex cube roots of 8 to matrix M1 as a complex
vector. Then you can see them easily by going to the Matrix
Catalog. and access them individually in calculations by
referring to M1(1), M1(2) etc.
Probability functions
COMB
Number of combinations (without regard to order) of n things
taken r at a time: n!/(r!(n−r)).
COMB(n,r)
Example
COMB(5,2) returns 10. That is, there are ten different
ways that five things can be combined two at a time.
!
Factorial of a positive integer. For non-integers, ! = Γ(x + 1).
This calculates the gamma function.
value!
PERM
Number of permutations (with regard to order) of n things
taken r at a time: n!/ (n-r)!.
PERM(n,r)
Example
PERM(5,2) returns 20. That is, there are 20 different
permutations of five things taken two at a time.
RANDOM
Random number (between zero and 1). Produced by a pseudo-
random number sequence. The algorithm used in the
RANDOM function uses a “seed” number to begin its
sequence. To ensure that two calculators must produce
different results for the RANDOM function, use the
RANDSEED function to seed different starting values before
using RANDOM to produce the numbers.
RANDOM
Using mathematical functions
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H I N T
The setting of Time will be different for each calculator, so
using RANDSEED(Time) is guaranteed to produce a set of
numbers which are as close to random as possible. You can set
the seed using the command RANDSEED.
UTPC
UTPF
Upper-Tail Chi-Squared Probability given degrees of
freedom, evaluated at value. Returns the probability that a χ
random variable is greater than value.
2
UTPC(degrees,value)
Upper-Tail Snedecor’s F Probability given numerator
degrees of freedom and denominator degrees of freedom (of
the F distribution), evaluated at value. Returns the probability
that a Snedecor's F random variable is greater than value.
UTPF(numerator,denominator,value)
UTPN
UTPT
Upper-Tail Normal Probability given mean and variance,
evaluated at value. Returns the probability that a normal
random variable is greater than value for a normal
distribution. Note: The variance is the square of the standard
deviation.
UTPN(mean,variance,value)
Upper-Tail Student’s t-Probability given degrees of freedom,
evaluated at value. Returns the probability that the Student's t-
random variable is greater than value.
UTPT(degrees,value)
10-14
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Real-number functions
Some real-number functions can also take complex
arguments.
CEILING
Smallest integer greater than or equal to value.
CEILING(value)
Examples
CEILING(3.2) returns 4
CEILING(-3.2) returns -3
DEG→RAD
Degrees to radians. Converts value from Degrees angle
format to Radians angle format.
DEG→RAD(value)
Example
DEG→RAD(180) returns 3.14159265359, the
value of π.
FLOOR
Greatest integer less than or equal to value.
FLOOR(value)
Example
FLOOR(-3.2) returns -4
FNROOT
Function root-finder (like the Solve aplet). Finds the value for
the given variable at which expression most nearly evaluates
to zero. Uses guess as initial estimate.
FNROOT(expression, variable, guess)
Example
FNROOT(M*9.8/600-1,M,1) returns
61.2244897959.
FRAC
Fractional part.
FRAC(value)
Example
FRAC(23.2) returns .2
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HMS→
→HMS
Hours-minutes-seconds to decimal. Converts a number or
expression in H.MMSSs format (time or angle that can include
fractions of a second) to x.x format (number of hours or
degrees with a decimal fraction).
HMS→(H.MMSSs)
Example
HMS→(8.30) returns 8.5
Decimal to hours-minutes-seconds. Converts a number or
expression in x.x format (number of hours or degrees with a
decimal fraction) to H.MMSSs format (time or angle up to
fractions of a second).
→HMS(x.x)
Example
→HMS(8.5) returns 8.3
INT
Integer part.
INT(value)
Example
INT(23.2) returns 23
MANT
MAX
MIN
Mantissa (significant digits) of value.
MANT(value)
Example
MANT(21.2E34) returns 2.12
Maximum. The greater of two values.
MAX(value1,value2)
Example
MAX(210,25) returns 210
Minimum. The lesser of two values.
MIN(value1,value2)
Example
MIN(210,25)returns 25
10-16
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MOD
Modulo. The remainder of value1/value2.
value1 MODvalue2
Example
9 MOD 4 returns 1
%
x percent of y; that is, x/100*y.
%(x,y)
Example
%(20,50) returns 10
%CHANGE
%TOTAL
RAD→DEG
ROUND
Percent change from x to y, that is, 100(y–x)/x.
%CHANGE(x,y)
Example
%CHANGE(20,50) returns 150
Percent total : (100)y/x. What percentage of x is y.
%TOTAL(x,y)
Example
%TOTAL(20,50) returns 250
Radians to degrees. Converts value from radians to degrees.
RAD→DEG(value)
Example
RAD→DEG(π) returns 180
Rounds value to decimal places. Accepts complex numbers.
ROUND(value,places)
Round can also round to a number of significant digits as
showed in example 2.
Examples
ROUND(7.8676,2) returns 7.68
ROUND (0.0036757,-3) returns 0.00368
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SIGN
Sign of value. If positive, the result is 1. If negative, –1. If
zero, result is zero. For a complex number, this is the unit
vector in the direction of the number.
SIGN(value)
SIGN((x,y))
Examples
SIGN (–2) returns –1
SIGN((3,4)) returns (.6,.8)
TRUNCATE
Truncates value to decimal places. Accepts complex
numbers.
TRUNCATE(value,places)
Example
TRUNCATE(2.3678,2) returns 2.36
XPON
Exponent of value.
XPON(value)
Example
XPON(123.4) returns 2
Statistics-Two
These are functions for use with two-variable statistics. See
“Two-variable” on page 8-14.
10-18
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Symbolic functions
The symbolic functions are used for symbolic manipulations
of expressions. The variables can be formal or numeric, but
the result is usually in symbolic form (not a number). You will
find the symbols for the symbolic functions = and | (where) in
the CHARS menu (
CHARS) as well as the MATH menu.
= (equals)
ISOLATE
Sets an equality for an equation. This is not a logical operator
and does not store values. (See “Test functions” on page 10-
20.)
expression1=expression2
Isolates the first occurrence of variable in expression=0 and
returns a new expression, where variable=newexpression.
The result is a general solution that represents multiple
solutions by including the (formal) variables s1 to represent
any sign and n1 to represent any integer.
ISOLATE(expression,variable)
Examples
ISOLATE(2*X+8,X) returns -4
ISOLATE(A+B*X/C,X) returns -(A*C/B)
LINEAR?
QUAD
Tests whether expression is linear for the specified variable.
Returns 0(false) or 1(true).
LINEAR?(expression,variable)
Example
LINEAR?((X^2-1)/(X+1),X) returns 0
Solves quadratic expression=0 for variable and returns a new
expression, where variable=newexpression. The result is a
general solution that represents both positive and negative
solutions by including the formal variable S1 to represent any
sign: + or – .
QUAD(expression,variable)
Example
2
QUAD((X-1) -7,X) returns
(2+s1*5.29150262213)/2
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QUOTE
Encloses an expression that should not be evaluated
numerically.
QUOTE(expression)
Examples
QUOTE(SIN(45))
F1(X) stores the expression
SIN(45) rather than the value of SIN(45).
Another method is to enclose the expression in single
quotes.
For example, X^3+2*X
F1(X)puts the
expression X^3_2*X into F1(X) in the Function aplet.
| (where)
Evaluates expression where each given variable is set to the
given value. Defines numeric evaluation of a symbolic
expression.
expression|(variable1=value1, variable2=value2,...)
Example
3*(X+1)|(X=3) returns 12.
Test functions
The test functions are logical operators that always return
either a 1 (true) or a 0 (false).
<
Less than. Returns 1 if true, 0 if false.
value1<value2
≤
Less than or equal to. Returns 1 if true, 0 if false.
value1≤value2
= =
Equals (logical test). Returns 1 if true, 0 if false.
value1==value2
≠
>
Not equal to. Returns 1 if true, 0 if false.
value1≠value2
Greater than. Returns 1 if true, 0 if false.
value1>value2
≥
Greater than or equal to. Returns 1 if true, 0 if false.
value1≥value2
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AND
IFTE
Compares value1 and value2. Returns 1 if they are both non-
zero, otherwise returns 0.
value1 AND value2
If expression is true, do the trueclause; if not, do the
falseclause.
IFTE(expression,trueclause,falseclause)
Example
2
3
IFTE(X>0,X ,X )
NOT
OR
Returns 1 if value is zero, otherwise returns 0.
NOT value
Returns 1 if either value1 or value2 is non-zero, otherwise
returns 0.
value1 OR value2
XOR
Exclusive OR. Returns 1 if either value1 or value2—but not
both of them—is non-zero, otherwise returns 0.
value1 XOR value2
Trigonometry functions
The trigonometry functions can also take complex numbers as
arguments. For SIN, COS, TAN, ASIN, ACOS, and ATAN,
see the Keyboard category.
ACOT
ACSC
ASEC
COT
Arc cotangent.
ACOT(value)
Arc cosecant.
ACSC(value)
Arc secant.
ASEC(value)
Cotangent: cosx/sinx.
COT(value)
CSC
Cosecant: 1/sinx
CSC(value)
SEC
Secant: 1/cosx.
SEC(value)
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Symbolic calculations
The HP 39G/40G has the ability to perform symbolic
calculations, for example, symbolic integration and
differentiation. You can perform symbolic calculations in
HOME and in the Function aplet.
In HOME
When you perform calculations that contain normal variables,
the calculator substitutes values for any variables. For
example, if you enter A+B on the command line and press
, the calculator retrieves the values for A and B from
memory and substitutes them in the calculation.
Using formal
variables
To perform symbolic calculations, for example symbolic
differentiations and integrations, you need to use formal
names. The HP 39G/40G has six formal names available for
use in symbolic calculations. These are S0 to S5. When you
perform a calculation that contains a formal name, the
HP 39G/40G does not carry out any substitutions.
You can mix formal names and real variables. Evaluating
2
(A+B+S1) will evaluate A+B, but not S1.
If you need to evaluate an expression that contains formal
names numerically, you use the | (where) command, listed in
the Math menu under the Symbolic category.
2
For example to evaluate (S1*S2) when S1=2 and
S2=4, you would enter the calculation as follows:
(The | symbol is in the CHARS menu: press
CHARS.
The = sign is listed in the MATH menu under Symbolic
functions.)
Symbolic
You can perform symbolic operations in the Function aplet’s
Symbolic view. For example, to find the derivative of a
function in the Function aplet’s Symbolic view, you define
two functions and define the second function as a derivative
of the first function. You then evaluate the second function.
See “To find derivatives in the Function aplet’s Symbolic
view” on page 10-24 for an example.
calculations in
the Function
aplet
10-22
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Finding derivatives
The HP 39G/40G can perform symbolic differentiation on
some functions. There are two ways of using the HP 39G/40G
to find derivatives.
•
You can perform differentiations in HOME by using the
formal variables, S1 to S5.
•
You can perform differentiations of functions of X in the
Function aplet.
To find
derivatives in
HOME
To find the derivative of the function in HOME, use a formal
variable in place of X. If you use X, the differentiation
function substitutes the value that X holds, and returns a
numeric result.
For example, consider the function:
dx( sin(x2 ) + 2cos(x) )
1. Enter the differentiation function onto the command line,
substituting S1 in place of X.
S1
S1
ꢁ
2
S1
2. Evaluate the function.
3. Show the result.
*k,ꢀ
HP 39G
HP 40G
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To find
To find the derivative of the function in the Function aplet’s
Symbolic view, you define two functions and define the
second function as a derivative of the first function. For
example, to differentiate sin(x2) + 2cosx :
derivatives in the
Function aplet’s
Symbolic view
1. Access the Function aplet’s Symbolic view and define
F1.
ꢁ
2
2. Define F2(X) as the
derivative of F(1).
F1
3. Select F2(X) and
evaluate it.
*k,
4. Press
to display the result. (Use the arrow keys to
view the entire function.)
HP 39G
HP 40G
You could also just define
F1(x)= dx( sin(x2) + 2cos(x)) .
10-24
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To find the
For example, to find the indefinite integral of
3x2 – 5dx use:
indefinite integral
using formal
variables
∫
(0, S1, 3X2 – 5, X)
∫
1. Enter the function.
0
S1
X
3
ꢁ
5
X
H I N T
If the Decimal Mark setting in the Modes input form
(
MODES)is set to Comma, use
instead of
.
2. Show the result format.
*k,
3. Press
to close the
show window.
4. Copy the result and evaluate.
HP 39G
HP 40G
Thus, substituting X for S1, it can be seen that:
x3
----
3
3x2 – 5dx= – 5x + 3
---------------
∫
∂
(X)
∂X
This result derives from substituting X=S1 and X=0 into the
original expression found in step 1. However, substituting
X=0 will not always evaluate to zero and may result in an
unwanted constant.
(x – 2)5
To see this, consider: (x – 2)4dx=
-------------------
∫
5
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The ‘extra’ constant of 6.4
results from the substitution
5
of x = 0 into (x – 2) /5,
and should be disregarded if
an indefinite integral is
required.
10-26
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11
Variables and memory management
Introduction
The HP 39G/40G has approximately 232K of user memory.
The calculator uses this memory to store variables, perform
computation, and store history.
A variable is an object that you create in memory to hold data.
The HP 39G/40G has two types of variables, home variables
and aplet variables.
•
Home variables are available in all aplets. For example,
you can store real numbers in variables A to Z and
complex numbers in variables Z0 to Z9. These can be
numbers you have entered, or the results of calculations.
These variables are available within all aplets and within
any programs.
•
Aplet variables apply only to a single aplet. Aplets have
specific variables allocated to them which vary from
aplet to aplet.
You use the calculator’s memory to store the following
objects:
•
•
•
•
•
copies of aplets with specific configurations
new aplets that you download
aplet variables
home variables
variables created through a catalog or editor, for example
a matrix or a text note
•
programs that you create.
You can use the Memory Manager (
MEMORY) to view
the amount of memory available. The catalog views, which
are accessible via the Memory Manager, can be used to
transfer variables such as lists or matrices between
calculators.
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Storing and recalling variables
You can store numbers or expressions from a previous input
or result into variables.
Numeric
Precision
A number stored in a variable is always stored as a 12-digit
mantissa with a 3-digit exponent. Numeric precision in the
display, however, depends on the display mode (Standard,
Fixed, Scientific, Engineering, or Fraction). A displayed
number has only the precision that is displayed. If you copy it
from the HOME view display history, you obtain only the
precision displayed, not the full internal precision. On the
other hand, the variable Ans always contains the most recent
result to full precision.
To store a value
1. On the command line,
enter the value or the
calculation for the result
you wish to store.
2. Press
ꢀ
3. Enter a name for the
variable.
4. Press
.
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To store the
results of a
calculation
If the value you want to store is in the HOME view display
history, for example the results of a previous calculation, you
need to copy it to the command line, then store it.
1. Perform the calculation for the result you want to store.
3
8
6
8 3
2. Move the highlight to the result you wish to store.
3. Press
4. Press
to copy the result to the command line.
.
5. Enter a name for the variable.
*k,ꢀ
ꢀ
A
6. Press
to store the result.
The results of a calculation can also be stored directly to a
variable. For example:
2
8
5 j 3
B
To recall a value
To recall a variable’s value, type the name of the variable and
press
.
A
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To use variables
in calculations
You can use variables in calculations. The calculator
substitutes the variable’s value in the calculation:
65
A
The VARS menu
You use the VARS menu to access all variables in the
calculator. The VARS menu is organised by category. For
each variable category in the left column, there is a list of
variables in the right column. You select a variable category
and then select a variable in the category.
1. Open the VARS menu.
2. Use the arrow keys or press the alpha key of the first
letter in the category to select a variable category.
For example, to select
the Matrix category,
press
.
Note: In this instance,
there is no need to press
the ALPHA key.
3. Move the highlight to the variables column.
*A,
4. Use the arrow keys to select the variable that you want.
For example, to select the M2 variable, press *e,.
*e,
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5. Choose whether to place the variable name or the
variable value on the command line.
–
Press
to indicate that you want the variable’s
contents to appear on the command line.
–
Press
to indicate that you want the variable’s
name to appear on the command line.
6. Press
to place the value or name on the command
line. The selected object appears on the command line.
Note: The VARS menu can also be used to enter the
names or values of variables into programs.
Example
This example demonstrates how to use the VARS menu to add
the contents of two list variables, and to store the result in
another list variable.
1. Display the List catalog.
LIST
to select L1
2. Enter the data for L1.
88
65
90
70
89
3. Return to the List Catalog to create L2.
LIST
*e,ꢀto select L2
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4. Enter data for L2.
55
90
48
77
86
5. Press
to access HOME.
6. Open the variable menu and select L1.
*e,*e,*e,*A,
7. Copy it to the command line. Note: Because the
option is highlighted, the variable’s name, rather than its
contents, is copied to the command line.
8. Insert the + operator and select the L2 variable from the
List variables.
*e,*e,*e,*A,*e,
9. Store the answer in the List catalog L3 variable.
L3
Note: You can also type
list names directly from the keyboard.
11-6
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Home
variables
It is not possible to store data of one type in a variable of
another type. For example, you use the Matrix catalog to
create matrices. You can create up to ten matrices, and you
can store these in variables M0 to M9. You cannot store
matrices in variables other than M0 to M9.
Category Available names
Complex
Z0 to Z9
For example, (1,2)
Z0 or 2+3i
ꢀ
Z1. You can enter a complex number by
typing (r,i), where r represents the real part,
and i represents the imaginary part.
Graphic
G0 to G9
See “Graphic commands” on page 15-20 for
more information on storing graphic objects
via programming commands. See “To store
into a graphics variable” on page 14-5 for
more information on storing graphic object
via the sketch view.
Library
Aplet library variables can store aplets that
you have created, either by saving a copy of
a standard aplet, or downloading an aplet
from another source.
List
L0 to L9
For example, {1,2,3}
M0 to M9 can store matrices or vectors.
For example, [[1,2],[3,4]] M0.
Modes variables store the modes settings that
L1.
Matrix
Modes
you can configure using
MODES.
Notepad
Program
Real
Notepad variables store notes.
Program variables store programs.
A to Z and θ.
For example, 7.45
A.
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Aplet variables Aplet variables store values that are unique to a particular
aplet. These include symbolic expressions and equations (see
below), settings for the Plot and Numeric views, and the
results of some calculations such as roots and intersections.
See the Reference Information chapter for more information
about aplet variables.
Category
Available names
Function
F0 to F9 (Symbolic view). See “Function
aplet variables” on page R-9.
Parametric
Polar
X0, Y0 to X9, Y9 (Symbolic view). See
“Parametric aplet variables” on page R-10.
R0 to R9 (Symbolic view). See “Polar
aplet variables” on page R-11.
Sequence
Solve
U0 to U9 (Symbolic view). See “Sequence
aplet variables” on page R-12.
E0 to E9 (Symbolic view). See “Solve
aplet variables” on page R-13.
Statistics
C0 to C9 (Numeric view). See “Statistics
aplet variables” on page R-14.
To access an
aplet variable
1. Open the aplet that contains the variable you want to
recall.
2. Press
to display the VARS menu.
3. Use the arrow keys to select a variable category in the left
column, then press *A, to access the variables in the right
column.
4. Use the arrow keys to select a variable in the right
column.
5. To copy the name of the variable onto the edit line, press
. (
is the default setting.)
6. To copy the value of the
variable into the edit line,
press
.
and press
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Memory Manager
You can use the Memory Manager to determine the amount of
available memory on the calculator. You can also use
Memory Manager to organize memory. For example, if the
available memory is low, you can use the Memory Manager
to determine which aplets or variables consume large amounts
of memory. You can make deletions to free up memory.
Example
1. Start the Memory Manager. A list of variable categories
is displayed.
MEMORY
Free memory is
displayed in the top right
corner and the body of
the screen lists each
category, the memory it uses, and the percentage of the
total memory it uses.
2. Select the category with which you want to work and
press
. Memory Manager displays memory details
of variables within the category.
*e,ꢀ*e,ꢀ*e,
3. To delete variables in a category:
–
–
Press
to delete the selected variable.
Press
selected category.
CLEAR to delete all variables in the
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12
Matrices
Introduction
You can perform matrix calculations in HOME and in
programs. The matrix and each row of a matrix appear in
brackets, and the elements and rows are separated by commas.
For example, the following matrix:
1 2 3
4 5 6
is displayed in the history as:
[[1,2,3],[4,5,6]]
(If the Decimal Mark in MODES is set to Comma, then the
row separators are periods.)
You can enter matrices directly in the command line, or create
them in the matrix editor.
Vectors
Vectors are one-dimensional arrays. They are composed of
just one row. A vector is represented with single brackets; for
example, [1,2,3]. A vector can be a real number vector or a
complex number vector, for example [(1,2), (7,3)].
Matrices
Matrices are two-dimensional arrays. They are composed of
more than one row and more than one column. Two-
dimensional matrices are represented with nested brackets;
for example, [[1,2,3],[4,5,6]]. You can create complex
matrices, for example, [[(1,2), (3,4)], [(4,5), (6,7)]].
Matrix Variables
There are ten matrix variables available, named M0 to M9.
You can use them in calculations in HOME or in a program.
You can retrieve the matrix names from the VARS menu, or
just type their names from the keyboard.
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Creating and storing matrices
You can create, edit, delete,
send, and receive matrices in
the Matrix catalog.
To open the Matrix catalog,
press
MATRIX.
You can also create and store matrices—named or
unnamed—-in HOME. For example, the command:
POLYROOT([1,0,–1,0])&M1
stores the root of the complex vector of length 3 into the M1
variable. M1 now contains the three roots of
x3 – x = 0
Matrix Catalog
keys
The table below lists the operations of the menu keys in the
Matrix Catalog, as well as the use of Delete (
) and Clear
(
CLEAR).
Key
Meaning
Opens the highlighted matrix for
editing.
Prompts for a matrix type, then opens
an empty matrix with the highlighted
name.
Transmits the highlighted matrix to
another HP 39G/40G or a disk drive.
See “Sending and receiving aplets” on
page 16-5.
Receives a matrix from another
HP 39G/40G or a disk drive. See
“Sending and receiving aplets” on
page 16-5.
Clears the highlighted matrix.
Clears all matrices.
CLEAR
*e, or
Moves to the end or the beginning of
the catalog.
*k
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To create a matrix
in the matrix
catalog
1. Press
MATRIX to open the Matrix catalog. The
Matrix catalog lists the 10 available matrix variables, M0
to M9.
2. Highlight the matrix variable name you want to use and
press
.
3. Select the type of matrix to create.
–
For a vector (one-dimensional array), select Real
vectoror Complex vector. Certain operations
(+, -, CROSS) do not recognize a one-dimensional
matrix as a vector, so this selection is important.
–
For a matrix (two-dimensional array), select Real
matrix or Complexmatrix.
4. For each element in the matrix, type a number or an
expression, and press . (The expression may not
contain symbolic variable names.)
For complex numbers, enter each number in complex
form; that is, (a, b), where a is the real part and b is the
imaginary part. You must include the parentheses and the
comma.
5. Use the cursor keys to move to a different row or column.
You can change the direction of the highlight bar by
pressing
. The
menu key toggles between the
following three options:
–
–
–
specifies that the cursor moves to the cell
below the current cell when you press
.
specifies that the cursor moves to the cell to the
right of the current cell when you press
.
specifies that the cursor stays in the current cell
when you press
.
6. When done, press
catalog, or press
MATRIX to see the Matrix
to return to HOME. The matrix
entries are automatically stored.
A matrix is listed with two dimensions, even if it is 3×1. A
vector is listed with the number of elements, such as 3.
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To transmit a
matrix
You can send matrices between calculators just as you can
send aplets, programs, lists, and notes.
1. Align the HP 39G calculators’ infrared ports.
2. Open the Matrix catalogs on both calculators.
3. Highlight the matrix to send.
4. Press
5. Press
.
on the receiving calculator.
Matrices can also be transmitted to or from a computer a cable
and Connectivity Kit.
Working with matrices
To edit a matrix
In the Matrix catalog, highlight the name of the matrix you
want to edit and press
.
Matrix edit keys
The following table lists the matrix edit key operations.
Key
Meaning
Copies the highlighted element to the
edit line.
Inserts a row of zeros above, or a
column of zeros to the left, of the
highlighted cell. (You are prompted to
choose row or column.)
A three-way toggle for cursor
advancement in the Matrix editor.
advances to the right,
¸ advances
downward, and
at all.
does not advance
Switches between larger and smaller
font sizes.
Deletes the highlighted cells, row, or
column (you are prompted to make a
choice).
CLEAR
Clears all elements from the matrix.
*k, *e, Moves to the first row, last row, first
*A,*>,
column, or last column respectively.
12-4
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To display a
matrix
•
•
In the Matrix catalog (
matrix name and press
MATRIX), highlight the
.
In HOME, enter the name of the matrix variable and
press
.
To display one
element
In HOME, enter matrixname(row,column). For example, if
M2 is [[3,4],[5,6]], then M2(1,2) returns 4.
To create a matrix
in HOME
1. Enter the matrix in the edit line. Start and end the matrix
and each row with square brackets (the shifted
and
keys).
2. Separate each element and each row with a comma.
Example: [[1,2],[3,4]].
3. Press
to enter and display the matrix.
The left screen below shows the matrix [[2.5,729],[16,2]]
being stored into M5. The screen on the right shows the vector
[66,33,11] being stored into M6. Note that you can enter an
expression (like 5/2) for an element of the matrix, and it will
be evaluated.
To store one
element
In HOME, enter:
value
matrixname(row,column)
For example, to change the element in the first row and second
column of M5 to 728, then display the resulting matrix:
728
M5
1
2
M5
.
An attempt to store an element to a row or column beyond the
size of the matrix results in an error message.
Matrices
12-5
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Matrix arithmetic
You can use the arithmetic functions (+, –, ×, / ) with matrix
arguments. Division left–multiplies by the inverse of the
divisor. You can enter the matrices themselves or enter the
names of stored matrix variables. The matrices can be real or
complex.
For the next four examples, store [[1,2],[3,4]] into M1 and
[[5,6],[7,8]] into M2.
Example
1. Create the first matrix.
MATRIX
1
3
2
4
ꢀ*e,
2. Create the second
matrix.
MATRIX *e,
5
6
ꢀ
*e, 7
8
3. Add the matrices that you created.
M1
M2
To multiply and
divide by a scalar
For division by a scalar, enter the matrix first, then the
operator, then the scalar. For multiplication, the order of the
operands does not matter. The matrix and the scalar can be
real or complex. For example, to divide the result of the
previous example by 2, use the following key presses:
j 2
12-6
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To multiply two
matrices
To multiply the two matrices M1 and M2 that you created for
the previous example, use the following keystrokes:
M1
M2
To multiply a matrix by a vector, enter the matrix first, then
the vector. The number of elements in the vector must equal
the number of columns in the matrix.
To divide by a
square matrix
For division of a matrix or a vector by a square matrix, the
number of rows of the dividend (or the number of elements, if
it is a vector) must equal the number of rows in the divisor.
This operation is not a mathematical division: it is a left–
multiplication by the inverse of the divisor. M1/M2 is
–1
equivalent to M2 * M1.
To divide the two matrices M1 and M2 that you created for the
previous example, use the following keystrokes:
M1 j
M2
To invert a matrix
You can invert a square matrix in HOME by typing the matrix
–1
(or its variable name) and pressing
x
. Or you
can use the matrix INVERSE command. Enter
INVERSE(matrixname) in HOME and press
.
To negate each
element
You can change the sign of each element in a matrix by
pressing before the matrix name.
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Solving systems of linear equations
Example
Solve the following linear system:
2x + 3y + 4z = 5
x + y – z = 7
4x – y + 2z = 1
1. Open the Matrix catalog and choose to create a vector in
the M1 variable.
MATRIX
*e,
2. Create the vector of the constants in the linear system.
5
1
7
3. Return to the Matrix
catalog. The vector you
created is listed as M1.
MATRIX
4. Select the M2 variable and create a new matrix.
*e,
Select Real matrix
5. Create a new matrix and enter the equation coefficients.
2
4
1
3
*e,
1
1
1
4
2
12-8
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6. Return to HOME and enter the calculation to left
multiply the constants vector by the inverse of the
coefficients matrix.
M2
–1
x
M1
7. Evaluate the calculation.
The result is a vector of the
solutions:
•
•
•
x = 2
y = 3
z = –2
An alternative method, is to use the RREF function. See
“RREF” on page 12-12.
Matrix functions and commands
About functions
•
Functions can be used in any aplet or in HOME. They are
listed in the MATH menu under the Matrix category.
They can be used in mathematical
expressions—primarily in HOME—as well as in
programs.
•
•
Functions always produce and display a result. They do
not change any stored variables, such as a matrix
variable.
Functions have arguments that are enclosed in
parentheses and separated by commas; for example,
CROSS(vector1,vector2). The matrix input can be either
a matrix variable name (such as M1) or the actual matrix
data inside brackets. For example, CROSS(M1,[1,2]).
Matrices
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About commands
Matrix commands are listed in the CMDS menu (
CMDS), in the matrix category.
See “Matrix commands” on page 15-23 for details of the
matrix commands available for use in programming.
Functions differ from commands in that a function can be
used in an expression. Commands cannot be used in an
expression.
Argument conventions
•
For row# or column#, supply the number of the row
(counting from the top, starting with 1) or the number of
the column (counting from the left, starting with 1).
•
The argument matrix can refer to either a vector or a
matrix.
Matrix functions
COLNORM
Column Norm. Finds the maximum value (over all columns)
of the sums of the absolute values of all elements in a column.
COLNORM(matrix)
COND
Condition Number. Finds the 1-norm (column norm) of a
square matrix.
COND(matrix)
CROSS
DET
Cross Product of vector1 with vector2.
CROSS(vector1, vector2)
Determinant of a square matrix.
DET(matrix)
DOT
Dot Product of two arrays, matrix1 matrix2.
DOT(matrix1, matrix2)
12-10
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EIGENVAL
EIGENVV
Displays the eigenvalues in vector form for matrix.
EIGENVAL(matrix)
Eigenvectors and Eigenvalues for a square matrix. Displays a
list of two arrays. The first contains the eigenvectors and the
second contains the eigenvalues.
EIGENVV(matrix)
IDENMAT
Identity matrix. Creates a square matrix of dimension
size × size whose diagonal elements are 1 and off-diagonal
elements are zero.
IDENMAT(size)
INVERSE
LQ
Inverts a square matrix (real or complex).
INVERSE(matrix)
LQ Factorization. Factors an m × n matrix into three matrices:
{[[ m × n lowertrapezoidal]],[[ n × n orthogonal]],
[[ m × m permutation]]}.
LQ(matrix)
LSQ
LU
Least Squares. Displays the minimum norm least squares
matrix (or vector).
LSQ(matrix1, matrix2)
LU Decomposition. Factors a square matrix into three
matrices:
{[[lowertriangular]],[[uppertriangular]],[[permutation]]}
The uppertriangular has ones on its diagonal.
LU(matrix)
MAKEMAT
Make Matrix. Creates a matrix of dimension rows × columns,
using expression to calculate each element. If expression
contains the variables I and J, then the calculation for each
element substitutes the current row number for I and the
current column number for J.
MAKEMAT(expression, rows, columns)
Example
MAKEMAT(0,3,3) returns a 3×3 zero matrix,
[[0,0,0],[0,0,0],[0,0,0]].
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QR
QR Factorization. Factors an m×n matrix into three matrices:
{[[m×m orthogonal]],[[m×n uppertrapezoidal]],[[n×n
permutation]]}.
QR(matrix)
RANK
Rank of a rectangular matrix.
RANK(matrix)
ROWNORM
Row Norm. Finds the maximum value (over all rows) for the
sums of the absolute values of all elements in a row.
ROWNORM(matrix)
RREF
Reduced Row Echelon Form. Changes a rectangular matrix to
its reduced row-echelon form.
RREF(matrix)
SCHUR
Schur Decomposition. Factors a square matrix into two
matrices. If matrix is real, then the result is
{[[orthogonal]],[[upper-quasi triangular]]}.
If matrix is complex, then the result is
{[[unitary]],[[upper-triangular]]}.
SCHUR(matrix)
SIZE
Dimensions of matrix. Returned as a list: {rows,columns}.
SIZE(matrix)
SPECNORM
SPECRAD
SVD
Spectral Norm of matrix.
SPECNORM(matrix)
Spectral Radius of a square matrix.
SPECRAD(matrix)
Singular Value Decomposition. Factors an m × n matrix into
two matrices and a vector:
{[[m × m square orthogonal]],[[n × n square orthogonal]],
[real]}.
SVD(matrix)
SVL
Singular Values. Returns a vector containing the singular
values of matrix.
SVL(matrix)
12-12
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TRACE
TRN
Finds the trace of a square matrix. The trace is equal to the
sum of the diagonal elements. (It is also equal to the sum of
the eigenvalues.)
TRACE(matrix)
Transposes matrix. For a complex matrix, TRN finds the
conjugate transpose.
TRN(matrix)
Examples
Identity Matrix
You can create an identity matrix with the IDENMAT
function. For example, IDENMAT(2) creates the 2×2 identity
matrix [[1,0],[0,1]].
You can also create an identity matrix using the MAKEMAT
(make matrix) function. For example, entering
MAKEMAT(I≠J,4,4) creates a 4 × 4 matrix showing the
numeral 1 for all elements except zeros on the diagonal. The
logical operator ≠ returns 0 when I (the row number) and J
(the column number) are equal, and returns 1 when they are
not equal.
Transposing a
Matrix
The TRN function swaps the row-column and column-row
elements of a matrix. For instance, element 1,2 (row 1,
column 2) is swapped with element 2,1; element 2,3 is
swapped with element 3,2; and so on.
For example, TRN([[1,2],[3,4]]) creates the matrix
[[1,3],[2,4]].
Matrices
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Reduced-Row
Echelon Form
The following set of equations x – 2y + 3z = 14
2x + y – z = – 3
4x – 2y + 2z = 14
1 –2 3 14
can be written as the augmented matrix
2 1 –1 –3
4 –2 2 14
which can then stored as a
3 × 4 real matrix in M1.
You can use the RREF
function to change this to
reduced row echelon form,
storing it as M2 for
convenience.
The reduced row echelon
matrix gives the solution to
the linear equation in the
forth column.
An advantage of using the RREF function is that it will also
work with inconsistent matrices resulting from systems of
equations which have no solution or infinite solutions.
For example, the following set of equations has an infinite
number of solutions:
x + y – z = 5
2x – y = 7
x – 2y + z = 2
The final row of zeros in the
reduced–row echelon form of
the augmented matrix
indicates an inconsistency.
12-14
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13
Lists
You can do list operations in HOME and in programs. A list
consists of comma-separated real or complex numbers,
expressions, or matrices, all enclosed in braces. A list may, for
example, contain a sequence of real numbers such as
{1,2,3}. (If the Decimal Mark in MODES is set to Comma,
then the separators are periods.) Lists represent a convenient
way to group related objects.
There are ten list variables available, named L0 to L9. You
can use them in calculations or expressions in HOME or in a
program. Retrieve the list names from the VARS menu, or just
type their names from the keyboard.
You can create, edit, delete, send, and receive named lists in
the List catalog (
LIST). You can also create and store
lists—named or unnnamed—in HOME.
Creating lists
List variables are identical in behaviour to the columns C1.C0
in the Statistics aplet. You can store a statistics column to a list
(or vice versa) and use any of the list functions on the statistics
columns, or the statistics functions, on the list variables.
Create a list in
the List
1. Open the List catalog.
LIST.
Catalog
2. Highlight the list name
you want to use (L1, etc.)
and press
to display
the List editor.
Lists
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3. Enter the values you want in the list, pressing
after each one.
Values can be real or
complex numbers (or an
expression). If you enter
a calculation, it is
evaluated and the result
is inserted in the list.
4. When done, press
LIST to see the List catalog, or
press
to return to HOME.
List catalog keys
The list catalog keys are:
Key
Meaning
Opens the highlighted list for editing.
Transmits the highlighted list to
another HP 39G/40G or a PC. See
“Sending and receiving aplets” on
page 16-5 for further information.
Receives a list from another HP 39G/
40G or a PC. See “Sending and
receiving aplets” on page 16-5 for
further information.
Clears the highlighted list.
Clears all lists.
CLEAR
*e, or
Moves to the end or the beginning of
the catalog.
*k,
13-2
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List edit keys
When you press edit to create or change a list, the following
keys are available to you:
Key
Meaning
Copies the highlighted list item into
the edit line.
Inserts a new value before the
highlighted item.
Deletes the highlighted item from the
list.
CLEAR
Clears all elements from the list.
*e, or
Moves to the end or the beginning of
the list.
*k,
Create a list in
HOME
1. Enter the list in the edit line. Start and end the list with
braces (the shifted and keys) and separate each
element with a comma.
2. Press to evaluate and display the list.
Immediately after typing in the list, you can store it in a
variable by pressing listname . The list
variable names are L0 through L9.
This example stores the
list {25,147,8} in L1.
(You can omit the final
brace when entering a
list.)
Lists
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Displaying and editing lists
To display a list
•
•
In the List catalog, highlight the list name and press
In HOME, enter the name of the list and press
.
.
To display one
element
In HOME, enter listname(element#). For example, if L2 is
{3,4,5,6}, then L2(2)
returns 4.
To edit a list
1. Open the List catalog.
LIST.
2. Press *k,ꢀor *e,ꢀto highlight the name of the list you
want to edit (L1, etc.) and press
contents.
to display the list
3. Press *k,ꢀor *e,ꢀto
highlight the element you want to edit. In this example,
edit the third element so that it has a value of 5.
*e,*e,
5
4. Press
.
13-4
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To insert an
1. Open the List catalog.
element in a list
LIST.
2. Press *k,ꢀor *e,ꢀto highlight the name of the list you
want to edit (L1, etc.) and press
contents.
to display the list
3. Press *k,ꢀor *e,ꢀto the
insertion position.
New elements are inserted above the highlighted
position. In this example, an element, with the value of 9,
is inserted between the first and second elements in the
list.
*e,
9
4. Press
.
To store one
element
In HOME, enter value
to store the second element of L1 to 148, type
148 L1(2)
listname(element). For example,
.
Lists
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Deleting lists
To delete a list
In the List catalog, highlight the list name and press
You are prompted if you want to delete the contents of the
.
highlighted list variable. Press
In the List catalog, press
to delete the contents.
To delete all lists
CLEAR.
Transmitting lists
You can send lists to calculators or PCs just as you can aplets,
programs, matrices, and notes.
1. Align the HP 39G calculators’ infrared ports.
2. Open the List catalogs on both calculators.
3. Highlight the list to send.
4. Press
5. Press
.
on the receiving calculator.
Lists can also be transmitted to or from a computer a cable and
Connectivity Kit.
13-6
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List functions
Following are details of list functions. You can use them in
HOME, as well as in programs.
You can type in the name of
the function, or you can copy
the name of the function from
the List category of the
MATH menu. Press
(the alpha L
character key). This displays
the List category. Press *A,, select a function, and press
.
List functions have the following syntax:
•
Functions have arguments that are enclosed in
parentheses and separated by commas. Example:
CONCAT(L1,L2). An argument can be either a list
variable name (such as L1) or the actual list. For
example, REVERSE({1,2,3}).
•
If Decimal Mark in MODES is set to Comma, use
periods to separate arguments. For example,
CONCAT(L1.L2).
Common operators like +, –, ×, and / can take lists as
arguments. If there are two arguments and both are lists, then
the lists must have the same length, since the calculation pairs
up the elements. If there are two arguments and one is a real
number, then the calculation pairs the number with each
element of the list.
Example
5*{1,2,3} returns {5,10,15}.
Besides the common operators that can take numbers,
matrices, or lists as arguments, there are commands that can
only operate on lists.
Lists
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CONCAT
Concatenates two lists into a new list.
CONCAT(list1,list2)
Example
CONCAT({1,2,3},{4})returns {1,2,3,4}.
∆LIST
Creates a new list composed of the differences between the
sequential elements in list1. The new list has one fewer
elements than list1. The first differences for {x x ... x } are
1
2
n
{x –x ... x –x }.
2
1
n
n–1
∆LIST(list1)
Example
In HOME, store {3,5,8,12,17,23} in L5 and find the first
differences for the list.
{3,5,8,12,
17,23
}
L 5
L *A,
Select 1LIST
L5
MAKELIST
Calculates a sequence of elements for a new list. Evaluates
expression with variable from begin to end values, taken at
increment steps.
MAKELIST(expression,variable,begin,end,
increment)
The MAKELIST function generates a series by automatically
producing a list from the repeated evaluation of an expression.
Example
In HOME, generate a list of squares from 23 to 27.
L *A,Select
MAKELIST
A
ꢁ
A
23
27
1
H I N T
If the Decimal Mark setting in the Modes input form
MODES)is set to Comma, use instead of
(
.
13-8
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ΠLIST
Calculates the product of all elements in list.
ΠLIST(list)
Example
ΠLIST({2,3,4})returns 24.
POS
Returns the position of an element within a list. The element
can be a value, a variable, or an expression. If there is more
than one instance of the element, the position of the first
occurrence is returned. A value of 0 is returned if there is no
occurrence of the specified element.
POS(list, element)
Example
POS ({3, 7, 12, 19},12)returns 3
REVERSE
SIZE
Creates a list by reversing the order of the elements in a list.
REVERSE(list)
Calculates the number of elements in a list.
SIZE(list)
Also works with matrices.
ΣLIST
Calculates the sum of all elements in list.
ΣLIST(list)
Example
ΣLIST({2,3,4})returns 9.
SORT
Sorts elements in ascending order.
SORT(list)
Lists
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Finding statistical values for list elements
To find values such as the mean, median, maximum, and
minimum values of the elements in a list, use the Statistics
aplet.
Example
In this example, use the Statistics aplet to find the mean,
median, maximum and minimum values of the elements in the
list, L1.
1. Create L1 with values 88, 90, 89, 65, 70, and 89.
{ 88 90
89 65 70 89
}
L1
H I N T
If the Decimal Mark setting in the Modes input form
(
MODES)is set to Comma, use
instead of
.
2. In HOME, store L1 into C1. You will then be able to see
the list data in the Numeric view of the Statistics aplet.
L1
C1
3. Start the Statistics aplet, and select 1–variable mode
(press
, if necessary, to display
).
Select
Statistics
Note: Your list values
are now in column1
(C1).
13-10
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4. In the Symbolic view, define H1 (for example) as C1
(sample) and 1 (frequency). Make sure that H1 is
checkmarked.
5. Go to the Numeric view
to display calculated statistics.
See “One-variable” on page 8-13 for the meaning of each
computed statistic.
Lists
13-11
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14
Notes and sketches
Introduction
The HP 39G/40G has text and picture editors for entering
notes and sketches.
•
Each aplet has its own independent Note view and
Sketch view. Notes and sketches that you create in these
views are associated with the aplet. When you save the
aplet, or send it to another calculator, the notes and
sketches are saved or sent as well.
•
The Notepad is a collection of notes independent of all
aplets. These notes can also be sent to another calculator
via the Notepad Catalog.
Aplet note view
You can attach text to an aplet in its Note view.
To write a note in
Note view
1. In an aplet, press NOTE for the Note view.
2. Use the note editing keys shown in the table in the
following section.
3. Set Alpha lock (
) for quick entry of letters. For
lowercase Alpha lock, press
.
4. While Alpha lock is on:
–
To type a single letter of the opposite case, press
letter.
–
To type a single non-alpha character (such as 5 or [ ),
press
first. (This turns off Alpha lock for one
character.)
Your work is automatically saved. Press any view key
(
,
,
,
) or
to exit the
Notes view.
Notes and sketches
14-1
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Note edit keys
Key
Meaning
Space key for text entry.
Displays next page of a multi-page
note.
Alpha-lock for letter entry.
Lower-case Alpha-lock.
Backspaces cursor and deletes
character.
Deletes current character.
Starts a new line.
CLEAR
Erases the entire note.
ꢀ
Menu for entering variable names,
and contents of variables.
Menu for entering math operations,
and constants.
CMDS
Menu for entering program
commands.
CHARS
Displays special characters. To type
one, highlight it and press
. To
copy a character without closing the
CHARS screen, press
.
14-2
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Aplet sketch view
You can attach pictures to an aplet in its Sketch view
SKETCH). Your work is automatically saved with the
(
aplet. Press any other view key or
view
to exit the Sketch
Sketch keys
Key
Meaning
Stores the specified portion of the
current sketch to a graphics variable
(G1 through G0).
Adds a new, blank page to the current
sketch set.
Displays next sketch in the sketch
set. Animates if held down.
Opens the edit line to type a text
label.
Displays the menu-key labels for
drawing.
Deletes the current sketch.
CLEAR
Erases the entire sketch set.
Toggles menu key labels on and off.
If menu key labels are hidden,
or
any menu key, redisplays the menu
key labels.
To draw a line
1. In an aplet, press
2. In Sketch view, press
where you want to start the line
3. Press . This turns on line-drawing.
SKETCH for the Sketch view.
and move the cursor to
4. Move the cursor in any direction to the end point of the
line by pressing the *k,, *e,,*A,,*>, keys.
5. Press
to finish the line.
Notes and sketches
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To draw a box
1. In Sketch view, press
and move the cursor to
where you want any corner of the box to be.
2. Press
. This turns on box-drawing.
3. Move the cursor to mark the opposite corner for the box.
You can adjust the size of the box by moving the cursor.
4. Press
to finish the box.
To draw a circle
1. In Sketch view, press
and move the cursor to
where you want the center of the circle to be.
2. Press
. This turns on circle drawing.
3. Move the cursor the distance of the radius.
4. Press
to draw the circle.
DRAW keys
Key
Meaning
Dot on. Turns pixels on as the cursor
moves.
Dot off. Turns pixels off as the cursor
moves.
Draws a line from the cursor’s starting
position to the cursor’s current position.
Press
when you have finished. You
can draw a line at any angle by moving the
cursor.
Draws a box from the cursor’s starting
position to the point at which you press
.
Draws a circle with the cursor’s starting
position as the center. The radius is the
distance between the cursor’s starting and
ending position. Press
circle.
to draw the
14-4
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To label parts of a
sketch
1. Press
Alpha shift on, press
(for lowercase).
and type the text in the edit line. To lock the
(for uppercase) or
To make the label a smaller character size, turn off
before pressing . ( is a toggle between small and
large font size). The smaller character size cannot display
lowercase letters.
2. Press
.
3. Position the label where you want it by pressing the *k,,
*e,,*A,,*>, keys.
4. Press
5. Press
again to affix the label.
to continue
drawing, or press
to exit Sketch
view.
To create a set of
sketches
You can create a set of up to ten sketches. This allows for
simple animation.
•
After making a sketch, press
to add a new, blank
page. You can now make a new sketch, which becomes
part of the current set of sketches.
•
•
To view the next sketch in an existing set, press
.
Hold
down for animation.
To remove the current page in the current sketch series,
press
.
To store into a
graphics variable
You can define a portion of a sketch inside a box, and then
store that graphic into a graphics variable.
1. In the Sketch view, display the sketch you want to copy
(store into a variable).
2. Press
.
3. Highlight the variable name you want to use and press
.
4. Draw a box around the portion you want to copy: move
the cursor to one corner, press , then move the cursor
to the opposite corner and press
.
Notes and sketches
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To import a
graphics variable
You can copy the contents of a graphics variable into the
Sketch view of an aplet.
1. Open the Sketch view of the aplet (
graphic will be copied here.
SKETCH). The
2. Press
,
. Highlight Graphic, then press *A,
and highlight the name of the variable (G1, etc.).
3. Press to recall the contents of the graphics
variable.
4. Move the box to where you would like to copy the
graphic, then press
.
The notepad
Subject to available memory, you can store as many notes as
you want in the Notepad ( NOTEPAD). These notes are
independent of any aplet. The Notepad catalog lists the
existing entries by name. It does not include notes that were
created in aplets’ Note views, but these can be imported. See
“To import a note” on page 14-8.
To create a note
in the Notepad
1. .Display the Notepad
catalog.
NOTEPAD
2. Create a new note.
3. Enter a name for your
note.
MYNOTE
Note: In this example,
the name of the note is ‘MYNOTE’.
14-6
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4. Write your note.
See “Note edit keys” on
page 14-2 for more
information on the entry
and editing of notes.
5. When you are finished,
press
or an aplet key to exit Notepad. Your work
is automatically saved.
Notepad Catalog keys
Key
Meaning
Opens the selected note for
editing.
Begins a new note, and asks for
a name.
Transmits the selected note to
another HP 39G/40G or PC.
Receives a note being
transmitted from another
HP 39G/40G or PC.
Deletes the selected note.
CLEAR
Deletes all notes in the catalog.
Notes and sketches
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To import a note
You can import a note from the Notepad into an aplet’s Note
view, and vice-versa. Suppose you want to copy a note named
“Assignments” from the Notepad into the Function Note
view:
1. In the Function aplet, display the Note view
(
NOTE).
2. Press
, highlight Notepadin the left-hand
list, then highlight the name “Assignments” in the right-
hand list.
3. Press
to copy the contents of “Assignments”
to the Function Note view.
Note: To recall the name instead of the contents, press
instead of
.
Suppose you want to copy the Note view from the current
aplet into the note “Assignments” in the Notepad.
1. In the Notepad (
“Assignments”.
NOTEPAD), open the note
2. Press
, highlight Notein the left column,
then press *A, and highlight NoteTextin the right
column.
3. Press
to recall the contents of the Note view
into the note “Assignments”.
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15
Programming
Introduction
This chapter describes how to program using the HP 39G/
40G. In this chapter you’ll learn about:
•
•
•
•
using the Program catalog to create and edit programs
programming commands
storing and retrieving variables in programs
programming variables.
H I N T
More information on programming, including examples and
special tools, can be found at HP’s calculators web site:
www.hp.com/calculators
The Contents of a
Program
An HP 39G/40G program contains a sequence of numbers,
mathematical expressions, and commands that execute
automatically to perform a task.
These items are separated by a colon ( : ). Commands that take
multiple arguments have those arguments separated by a
semicolon ( ; ). For example,
PIXON xposition;yposition:
Structured
Programming
Inside a program you can use branching structures to control
the execution flow. You can take advantage of structured
programming by creating building-block programs. Each
building-block program stands alone—and it can be called
from other programs. Note: If a program has a space in its
name then you have to put quotes around it when you want to
run it.
Example
RUN GETVALUE: RUN CALCULATE: RUN
"SHOW ANSWER":
This program is separated into three main tasks, each an
individual program. Within each program, the task can be
simple—or it can be divided further into other programs that
perform smaller tasks.
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Program catalog
The Program catalog is where you create, edit, delete, send,
receive, or run programs. This section describes how to
•
•
•
•
•
•
•
•
•
•
•
open the Program catalog
create a new program
enter commands from the program commands menu
enter functions from the MATH menu
edit a program
run and debug a program
stop a program
copy a program
send and receive a program
delete a program or its contents
customize an aplet.
Open Program
catalog
1. Press
PROGRM.
The Program catalog displays a list of program names. If
you haven't created any programs, the only name you'll
see is Editline.
Editline contains the last expression that you entered
from the edit line in HOME, or the last data you entered
in an input form. (If you press
from HOME
without entering any data, the HP 39G/40G runs the
contents of Editline.)
Editline is
a built-in
function.
Program catalog menu
Before starting to work with programs, you should take a few
minutes to become familiar with the Program catalog menu
keys. You can use any of the following keys (both menu and
keyboard), to perform tasks in the Program catalog.
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Program catalog keys
The program catalog keys are:
Key
Meaning
Opens the highlighted program for
editing.
Prompts for a new program name,
then opens an empty program.
Transmits the highlighted program
to another HP 39G/40G or to a disk
drive.
Receives the highlighted program
from another HP 39G/40G or from a
disk drive.
Runs the highlighted program.
*k, or *e,
Moves to the beginning or end of the
Program catalog.
Deletes the highlighted program.
CLEAR
Deletes all programs in the program
catalog.
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Creating and editing programs
Create a new
program
1. Press
2. Press
PROGRM to open the Program catalog.
.
The HP 39G/40G
prompts you for a name.
A program name can contain special characters, such as a
space. However, if you use special characters and then
run the program by typing it in HOME, you must enclose
the program name in double quotes (" "). Don’t use the "
symbol within your program name.
3. Type your program
name, then press
.
When you press
, the
Program Editor opens.
4. Enter your program.
When done, start any other activity. Your work is saved
automatically.
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Enter
commands
Until you become familiar with the HP 39G/40G commands,
the easiest way to enter commands is to use the Commands
menu from the Program editor. You can always type in
commands using alpha characters.
1. From the Program editor, press
Program Commands menu.
CMDS to open the
CMDS
2. On the left, use *e,ꢀorꢀ*k,ꢀto highlight a command
category, then pressꢀ*A, to access the commands in the
category. Select the command that you want.
*e,*e,*A,*e,
3. Press
to paste the command into the program editor.
To enter functions (more
to come)
Edit a program 1. Press
PROGRM to
open the Program
catalog.
2. Use the arrow keys to highlight the program you want to
edit, and press
. The HP 39G/40G opens the
Program Editor. The name of your program appears in
the title bar of the display. You can use the following
keys to edit your program.
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Editing keys
The editing keys are:
Key
Meaning
Inserts the
point.
character at the editing
Inserts space into text.
Displays previous page of the program.
Displays next page of the program.
Moves up or down one line.
*k,*e,
*A,*>,
Moves right or left one character.
Alpha-lock for letter entry. Press
A...Z to lock lower case.
Backspaces cursor and deletes
character.
Deletes current character.
Starts a new line.
CLEAR
Erases the entire program.
Menus for entering variable names,
contents of variables, math functions,
and program constants.
CMDS
Menus for entering program
conmmands.
CHARS
Displays all characters. To type one,
highlight it and press
.
To enter several characters in a row, use
the
menu key while in the CHARS
menu.
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Using programs
Run a program From HOME, type RUN program_name.
or
From the Program catalog, highlight the program you want to
run and press
.
Regardless of where you start the program, all programs run
in HOME. What you see will differ slightly depending on
where you started the program. If you start the program from
HOME, the HP 39G/40G displays the contents of Ans (Home
variable containing the last result), when the program has
finished. If you start the program from the Program catalog,
the HP 39G/40G returns you to the Program catalog when the
program ends.
Debug a
program
If you run a program that contains errors, the program will
stop and you will see an error message.
To debug the program:
1. Choose
to edit the program.
The insert cursor appears in the program at the point
where the error occurred.
2. Edit the program to fix the error.
3. Re-start the program.
4. Repeat the process until you find and correct all errors.
Stop a
program
You can stop the execution of a program at any time by
pressing CANCEL (the
key). Note: You may have to press
it a couple of times.
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Working with programs
Copy a
program
You can use the following procedure if you want to make a
copy of your work before editing—or if you want to use one
program as a template for another.
1. Press
2. Press
PROGRM to open the Program catalog.
.
3. Type a new file name, then choose
.
The Program Editor opens with a new program.
4. Press
5. Press
to open the Variable menu.
to quickly scroll to Program.
6. Press *A,, then highlight the program you want to copy.
7. Press , then press
.
The contents of the highlighted program are copied into
the current program at the cursor location.
H I N T
If you use a programming routine often, save the routine
under a different program name, then use the above method to
copy it into your programs.
Transmit a
program
You can send programs to, and receive programs from, other
calculators just as you can send and receive aplets, matrices,
lists, and notes.
After aligning the calculators’ infrared ports, open the
Program catalogs on both calculators. Highlight the program
to send, then press
on the sending calculator and
on the receiving calculator.
You can also send programs to, and receive programs from, a
remote storage device (aplet disk drive or computer). This
takes place via a cable connection and requires an aplet disk
drive or specialized software running on a PC (such as a
connectivity kit).
Delete a
program
You can delete any program except Editline.
1. Press
PROGRM to open the Program catalog.
2. Highlight a program to delete, then press
.
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Delete all
programs
You can delete all programs at once.
1. In the Program catalog, press
CLEAR.
2. Press
.
Delete the
contents of a
program
You can clear the contents of a program without deleting the
program name.
1. Press
2. Highlight a program, then press
3. Press CLEAR, then press
PROGRM to open the Program catalog.
.
.
4. The contents of the program are deleted, but the program
name remains.
About customizing an aplet
You can configure an aplet and develop a set of programs to
work with the aplet.
Use the SETVIEWS command to create a custom VIEWS
menu which links specially written programs to the new aplet.
A useful method for customizing an aplet is illustrated below:
1. Decide on the aplet type that you want to use, for
example the Function aplet or the Statistics aplet. The
copied aplet inherits all the properties of the parent aplet.
Save the standard aplet under a new name.
2. Configure the new aplet if you need to, for example by
presetting axes or angle measures.
3. Develop the programs to work with your aplet. When
you develop the aplet’s programs, use the standard aplet
naming convention. This allows you to keep track of the
programs in the Program catalog that belong to each
aplet. See “Aplet naming convention” on page 15-10.
4. Develop a program that uses the SETVIEWS command
to modify the aplet’s VIEWS menu. The menu options
provide links to associated programs. You can specify
any other programs that you want transferred with the
aplet. See “SETVIEWS” on page 15-14 for information
on the command.
5. Ensure that the new aplet is selected, then run the menu
configuration program to configure the aplet’s VIEWS
menu.
6. Test the aplet and debug the associated programs.(Refer
to “Debug a program” on page 15-7).
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Aplet naming convention
To assist users in keeping track of aplets and associated
programs, use the following naming convention when setting
up an aplet’s programs:
•
•
Start all program names with an abbreviation of the aplet
name. We will use APL in this example.
Name programs called by menu entries in the VIEWS
menu number, after the entry, for example:
–
–
APL.ME1 for the program called by menu option 1
APL.ME2 for the program called by menu option 2
•
Name the program that configures the new VIEWS menu
option APL.SV where SV stands for SETVIEWS.
For example, a customized aplet called “Differentiation”
might call programs called DIFF.ME1, DIFF.ME2, and
DIFF.SV.
Customizing an aplet example
This example aplet is designed to demonstrate the process of
configuring an aplet. The new aplet is based on the Function
aplet. Note: This aplet is not intended to serve a serious use,
merely to illustrate the process.
Save the aplet
1. Open the Function aplet and save it as “EXPERIMENT”.
The new aplet appears in the Aplet library.
Selectꢀ
Function
EXPERIMENT
2. Create a program called
EXP.ME1 with contents
as shown. This program
configures the plot
ranges, then runs a
program that allows you
to configure the angle format.
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3. Create a program called
EXP.ME2 with contents
as shown. This program
sets the numeric view
options for the aplet, and
runs the program that
you can use to configure the angle mode.
4. Create a program called
EXP.ANG which the
previous two programs
call.
5. Create a program called
EXP.S which runs when
you start the aplet, as
shown. This program
sets the angle mode to
degrees, and sets up the
initial function that the aplet plots.
Configuring
the Setviews
menu option
programs
In this section we will begin by configuring the VIEWS
menu by using the SETVIEWS command. We will then
create the “helper” programs called by the VIEWS menu
which will do the actual work.
6. Open the Program catalog and create a program named
“EXP.SV”. Include the following code in the program.
(Text shown in italics below are comments only.)
Each entry line after the
command SETVIEWS is
a trio that consists of a
VIEWS menu text line (a
space indicates none), a
program name, and a
number that defines the view to go to after the program
has run its course. All programs listed here will transfer
with an aplet when the aplet is transferred.
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SETVIEWS ’’’’;;’’’’;18;
Sets the first menu option to be "Auto scale".
This is the fourth standard Function aplet
view menu option and the 18 "Auto scale",
specifies that it is to be included in the new
menu. The empty quotes will ensure that the
old name of "Auto scale" appears on the new
menu. See “SETVIEWS” on page 15-14.
’’My Entry1’’;’’EXP.ME1’’;1;
Sets the second menu option. This option
runs program EXP.ME1, then returns to view
1, Plot view.
’’My Entry2’’;’’EXP.ME2’’;3;
Sets the third menu option. This option runs
the program EXP.ME2, then returns to view
3, the NUM view
’’’’;’’EXP.SV’’;0;
This line specifies that the program to set the
View menu (this program) is transferred with
the aplet. The space character between the
first set of quotes in the trio specifies that no
menu option appears for the entry. You do not
need to transfer this program with the aplet,
but it allows users to modify the aplet’s menu
if they want to.
’’’’;’’EXP.ANG’’;0;
The program EXP.ANG is a small routine
that is called by other programs that the aplet
uses. This entry specifies that the
program.EXP.ANG is transferred when the
aplet is transferred, but the space in the first
quotes ensures that no entry appears on the
menu.
’’START’’;’’EXP.S’’;7:
This specifies the Start menu option. The
program that is associated with this entry,
.EXP.S, runs automatically when you start
the aplet. Because this menu option specifies
view 7, the VIEWS menu opens when you
start the aplet.
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You only need to run this program once to configure your
aplet’s VIEWS menu. Once the aplet’s VIEWS menu is
configured, it remains that way until you run SETVIEWS
again.
You do not need to include this program for your aplet to
work, but it is useful to specify that the program is
attached to the aplet, and transmitted when the aplet is
transmitted.
7. Return to the program
catalog. The programs
that you created should
appear as follows:
8. You must now RUN the
program EXP.SV to
execute the SETVIEWS command and create the
modified VIEWS menu. Check that the name of the new
aplet is highlighted in the APLET view.
9. You can now return to the APLET library and press
START to run your new aplet.
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Programming commands
This section describes the commands for programming with
HP 39G/40G. You can enter these commands in your program
by typing them or by accessing them from the Commands
menu.
Aplet commands
These commands control aplets.
CHECK
Checks (selects) the corresponding function in the current
aplet. For example, Check 3 would check F3 if the current
aplet is Function. Then a checkmark would appear next to F3
in Symbolic view, F3 would be plotted in Plot view, and
evaluated in Numeric view.
CHECKn
SELECT
Selects the named aplet and makes it the current aplet. Note:
Quotes are needed if the name contains spaces or other
special characters.
SELECTapletname
SETVIEWS
The SETVIEWS command is used to define entries in the
VIEWS menu for aplets that you customize. See “About
customizing an aplet” on page 15-9 for an example of using
the SETVIEWS command.
When you use the SETVIEWS command, the aplet’s standard
VIEWS menu is deleted and the customized menu is used in
its place. You only need to apply the command to an aplet
once. The View menu changes remain unless you apply the
command again.
Typically, you develop a program that uses the SETVIEWS
command only. The command contains a trio of arguments for
each menu option to create, or program to attach. Keep the
following points in mind when using this command:
•
The SETVIEWS command deletes an aplet’s standard
Views menu options. If you want to use any of the
standard options on your reconfigured VIEWS menu,
you must include them in the configuration.
•
When you invoke the SETVIEWS command, the
changes to an aplet’s VIEWS menu remain with the
aplet. You need to invoke the command on the aplet
again to change the VIEWS menu.
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•
•
All the programs that are called from the VIEWS menu
are transferred when the aplet is transferred, for example
to another calculator or to a PC.
As part of the VIEWS menu configuration, you can
specify programs that you want transferred with the
aplet, but are not called as menu options. For example,
these can be sub-programs that menu options use, or the
program that defines the aplet’s VIEWS menu.
•
You can include a “Start” option in the VIEWS menu to
specify a program that you want to run automatically
when the aplet starts. This program typically sets up the
aplet’s initial configuration. The Start option on the menu
is also useful for resetting the aplet.
Command syntax
The syntax for the command is as follows:
SETVIEWS
"Prompt1";"ProgramName1";ViewNumber1;
"Prompt2";"ProgramName2";ViewNumber2:
(You can repeat as many Prompt/ProgramName/
ViewNumber trios of arguments as you like.)
Within each Prompt/ProgramName/ViewNumber trio, you
separate each item with a semi-colon.
Prompt
Prompt is the text that is displayed for the corresponding entry
in the Views menu. Enclose the prompt text in double quotes.
Associating programs with your aplet
If Prompt consists of a single space, then no entry appears in
the view menu. The program specified in the ProgramName
item is associated with the aplet and transferred whenever the
aplet is transmitted. Typically, you do this if you want to
transfer the Setviews program with the aplet, or you want to
transfer a sub-program that other menu programs use.
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Auto-run programs
If the Prompt item is “Start”, then the ProgramName program
runs whenever you start the aplet. This is useful for setting up
a program to configure the aplet. Users can select the Start
item from the Views menu to reset the aplet if they change
configurations.
You can also define a menu item called “Reset” which is
autorun if the user chooses the RESET button in the APLET
view.
ProgramName
ProgramName is the name of the program that runs when the
corresponding menu entry is selected. All programs that are
identified in the aplet’s SETVIEWS command are transferred
when the aplet is transmitted.
ViewNumber
ViewNumber is the number of a view to start after the program
finishes running. For example, if you want the menu option to
display the Plot view when the associated program finishes,
you would specify 1 as the ViewNumber value.
Including standard menu options
To include one of an aplet’s standard View menu options in
your customized menu, set up the arguments trio as follows:
•
•
•
The first argument specifies the menu item name:
–
Leave the argument empty to use the standard Views
menu name for the item, or
–
Enter a menu item name to replace the standard
name.
The second argument specifies the program to run:
–
–
Leave the argument empty to run the standard menu
option.
Insert a program name to run the program before the
standard menu option is selected.
The third argument specifies the view and the menu
number for the item. Determine the menu number from
the View numbers table below.
Note: SETVIEWS with no arguments resets the views to
default of the base aplet.
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View numbers
The views are numbered as follows:
0
1
2
3
4
5
6
7
8
9
10
HOME
11
12
13
14
15
16
17
18
19
20
21
List Catalog
Matrix Catalog
Notepad Catalog
Programs Catalog
Plot-Detail
Plot-Table
Overlay Plot
Auto scale
Decimal
Plot
Symbolic
Numeric
Plot-Setup
Symbolic-Setup
Numeric-Setup
Views
Note
Sketch view
Aplet Catalog
Integer
Trig
UNCHECK
Unchecks (unselects) the corresponding function in the
current aplet. For example, Uncheck 3 would uncheck F3 if
the current aplet is Function.
UNCHECKn
Branch commands
Branch commands let a program make a decision based on the
result of one or more tests. Unlike the other programming
commands, the branch commands work in logical groups.
Therefore, the commands are described together rather than
each independently.
IF...THEN...END
Executes a sequence of commands in the true–clause only if
the test–clause evaluates to true. Its syntax is:
IFtest–clause
THENtrue–clause END
Example
1&A :
IF A==1
THEN MSGBOX A " EQUALS 1" :
END
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IF... THEN...
ELSE... END
Executes the true-clause sequence of commands if the test-
clause is true, or the false-clause sequence of commands if the
test-clause is false.
IF test–clause
THEN true-clause ELSE false-clause END
Example
1&A :
IF A==1
THEN MSGBOX A " EQUALS 1" :
ELSE MSGBOX A " IS NOT EQUAL TO 1" :
END
CASE...END
Executes a series of test-clause commands that execute the
appropriate true-clause sequence of commands. Its syntax is:
CASE
IF test-clause THEN true-clause END
1
1
IF test-clause THEN true-clause END
2
2
.
.
.
IF test-clause THEN true-clause END
n
n
END
When CASE is executed, test-clause is evaluated. If the test
1
is true, true-clause is executed, and execution skips to END.
1
If test-clause if false, execution proceeds to test-clause .
1
2
Execution with the CASE structure continues until a true-
clause is executed (or until all the test-clauses evaluate to
false).
IFERR...
THEN...
END...
Many conditions are automatically recognized by the HP
39G/40G as error conditions and are automatically treated as
errors in programs.
IFERR...THEN...END allows a program to intercept error
conditions that otherwise would cause the program to abort.
Its syntax is:
IFERR trap-clause
THEN error-clause END
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RUN
Runs the named program. If your program name contains
special characters, such as a space, then you must enclose the
file name in double quotes (" ").
RUN"program name" or RUNprogramname
STOP
Stops the current program.
STOP
Drawing commands
The Drawing commands act on the display. The scale of the
display depends on the current aplet’s Xmin, Xmax, Ymin,
and Ymax values. The following examples assume the HP
39G/40G default settings with the Function aplet as the
current aplet.
ARC
Draws a circular arc, of given radians, whose centre is at (x,y)
The arc is drawn from start_angle_measurement, and
end_angle_measurement.
ARCx;y;radius;start_angle_measurment;
end_angle_measurment:
Example
ARCꢀ0;0;2;0;360:
FREEZE:
Draws a circle centered
at (0,0) of radius 2. The
FREEZE command
causes the circle to
remain displayed on the screen until you press a key.
BOX
Draws a box with opposite corners (x1,y1) and (x2,y2).
BOXx1;y1;x2;y2:
Example
BOX -1;-1;1;1:
FREEZE:
Draws a box, lower
corner at (–1,–1), upperꢀ
corner at (1,1)
ERASE
Clears the display
ERASE:
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FREEZE
LINE
Halts the program, freezing the current display. Execution
resumes when any key is pressed.
Draws a line from (x1, y1) to (x2, y2).
LINEꢀx1;y1;x2;y2ꢁ
PIXOFF
PIXON
TLINE
Turns off the pixel at the specified coordinates (x,y).
PIXOFFx;yꢁ
Turns on the pixel at the specified coordinates (x,y).
PIXONx;yꢁ
Toggles the pixels along the line from (x1, y1) to (x2, y2) on
and off. Any pixel that was turned off, is turned on; any pixel
that was turned on, is turned off. TLINE can be used to erase
a line.
TLINEx1;y1;x2;y2ꢁ
Example
TLINE 0;0;3;3ꢁ
Erases previously drawn 45 degree line from (0,0) to
(3,3), or draws that line if it doesn’t already exist.
Graphic commands
The Graphic commands use the graphics variables G0 through
G9—or the Page variable from Sketch—as graphicname
arguments. The position argument takes the form (x,y).
Position coordinates depend on the current aplet's scale,
which is specified by Xmin, Xmax, Ymin, and Ymax. The
upper left corner of the target graphic (graphic2) is at
(Xmin,Ymax).
You can capture the current display and store it in G0 by
simultaneously pressing
+
.
DISPLAY→
→DISPLAY
Stores the current display in graphicname.
DISPLAY→ graphicname
Displays graphic from graphicname in the display.
→DISPLAY graphicname
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→GROB
Creates a graphic from expression, using font_size, and stores
the resulting graphic in graphicname. Font sizes are 1, 2, or 3.
If the fontsize argument is 0, the HP 39G/40G creates a
graphic display like that created by the SHOWoperation.
→GROB graphicname;expression;fontsize
GROBNOT
GROBOR
Replaces graphic in graphicname with bitwise-inverted
graphic.
GROBNOT graphicname
Using the logical OR, superimposes graphicname2 onto
graphicname1. The upper left corner of graphicname2 is
placed at position.
GROBORgraphicname1;position;graphicname2
GROBXOR
Using the logical XOR, superimposes graphicname2 onto
graphicname1. The upper left corner of graphicname2 is
placed at position.
GROBXOR graphicname1;position;graphicname2
MAKEGROB
Creates graphic with given width, height, and hexadecimal
data, and stores it in graphicname.
MAKEGROB graphicname;width;height;hexdata
PLOT→
Stores the Plot view display as a graphic in graphicname.
PLOT→ graphicname
PLOT→ and DISPLAY→ can be used to transfer a copy of
the current PLOT view into the sketch view of the aplet for
later use and editing.
Example
1 &PageNum:
PLOT→Page:
FREEZE:
This program stores the current PLOT view to the first page
in the sketch view of the current aplet and then displays the
sketch as a graphic object until any key is pressed.
→PLOT
Puts graph from graphicname into the Plot view display.
→PLOTgraphicname:
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REPLACE
SUB
Replaces portion of graphic in graphicname1 with
graphicname2,starting at position.REPLACEalso works
for lists and matrices.
REPLACEgraphicname1;(position);graphicname2:
Extracts a portion of the named graphic (or list or matrix), and
stores it in a new variable, name. The portion is specified by
position and positions.
SUBname;graphicname;(position);(positions):
ZEROGROB
Creates a blank graphic with given width and height, and
stores it in graphicname.
ZEROGROB graphicname;width;height:
Loop commands
Loop structures allow a program to execute a routine
repeatedly. The HP 39G/40G has three loop structures. The
example programs below illustrate each of these structures
incrementing the variable A from 1 to 12.
DO…UNTIL
…END
Do... Until... Endis a loop structure that executes the loop-
clause repeatedly until test-clause returns a true (nonzero)
result. Because the test is executed after the loop-clause, the
loop-clause is always executed at least once. Its syntax is:
DO loop-clause UNTIL test-clause END
1 & A:
DO A + 1 & A
UNTIL A == 12
END
WHILE…
REPEAT…
END
While... Repeat... Endis a loop structure that repeatedly
evaluates test-clause and executes loop-clause sequence if the
test is true. Because the test-clause is executed before the
loop-clause, the loop-clause is not executed if the test is
initially false. Its syntax is:
WHILEtest-clause REPEAT loop-clause END
1ꢀ&ꢀA:
WHILE A < 12
REPEAT A+1 &ꢀA
END
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FOR…TO…STEP
...END
FOR name=start-expression TO end-expression
[STEP increment];
loop-clause END
FOR A=1 TO 12 STEP 1;
DISP 3;A:
END
Note that the STEP parameter is optional. If it is omitted, a
step value of 1 is assumed.
BREAK
Terminates loop.
BREAK
Matrix commands
The matrix commands take variables M0–M9 as arguments.
ADDCOL
ADDROW
Add Column. Inserts values into a column before
column_number in the specified matrix. You enter the values
as a vector. The values must be separated by commas and the
number of values must be the same as the number of rows in
the matrix name.
ADDCOLname;[value1,...,value ];column_number
n
Add Row. Inserts values into a row before row_number in the
specified matrix. You enter the values as a vector. The values
must be separated by commas and the number of values must
be the same as the number of columns in the matrix name.
ADDROW name;[value ,..., value ];row_number
1
n
DELCOL
DELROW
EDITMAT
Delete Column. Deletes the specified column from the
specified matrix.
DELCOL name;column_number
Delete Row. Deletes the specified row from the specified
matrix.
DELROWname;row_number
Starts the Matrix Editor and displays the specified matrix. If
used in programming, returns to the program when user
presses
.
EDITMATname
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RANDMAT
Creates random matrix with a specified number of rows and
columns and stores the result in name
(name must be M0...M9). The entries will be integers
ranging from –9 to 9.
RANDMATname;rows;columns
REDIM
Redimensions the specified matrix or vector to size. For a
matrix, size is a list of two integers {n1,n2}. For a vector, size
is a list containing one integer {n}.
REDIMname;size
REPLACE
Replaces portion of a matrix or vector stored in name with an
object starting at position start. start for a matrix is a list
containing two numbers; for a vector, it is a single number.
Replace also works with lists and graphics.
REPLACEname;start;object
SCALE
SCALEADD
SUB
Multiplies the specified row_number of the specified matrix
by value.
SCALEname;value;rownumber
Multiplies the row of the matrix name by value, then adds this
result to the second specified row.
SCALEADDname;value;row1;row2
Extracts a sub-object—a portion of a list, matrix, or graphic
from object—and stores it into name. start and end are each
specified using a list with two numbers for a matrix, a number
for vector or lists, or an ordered pair, (X,Y), for graphics.
SUBname;object;start;end
SWAPCOL
SWAPROW
Swaps Columns. Exchanges column1 and column2 of the
specified matrix.
SWAPCOL name;column1;column2
Swap Rows. Exchanges row1and row2 in the specified
matrix.
SWAPROWname;row1;row2
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Print commands
These commands print to an HP infrared printer, for example
the HP 82240B printer. Note: The HP 40G does not have an
infrared port and will not print to an infrared printer.
PRDISPLAY
PRHISTORY
PRVAR
Prints the contents of the display.
PRDISPLAY
Prints all objects in the history.
PRHISTORY
Prints name and contents of variablename.
PRVARvariablename
You can also use the PRVAR command to print the contents
of a program or a note.
PRVARprogramname;PROG
PRVARnotename;NOTE
Prompt commands
You can use the following commands to prompt users for
input during your program or to provide information to users.
BEEP
Beeps at the frequency and for the time you specify.
BEEPfrequency;seconds
CHOOSE
Creates a Choose Box, which is a box containing a list of
options from which the user chooses one. Each option is
numbered, 1 through n. The result of the choose command is
to store the number of the option chosen in a variable. The
syntax is
CHOOSEdefault_option_number; title; option ; option ;
1
2
...option
n
where default_option_number is the number of the option that
will be highlighted by default whenever the Choose Box is
displayed, title is the text displayed in the title bar of the
Choose Box, and option ...option are the options listed in the
1
n
Choose Box.
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Example
3 & A:CHOOSE A;
"COMIC STRIPS";
"DILBERT";
"CALVIN&HOBBES";
"BLONDIE";
DISP
Displays textitem in a row of the display at the line_number.
A text item consists of any number of expressions and quoted
strings of text. The expressions are evaluated and turned into
strings. Lines are numbered from the top of the screen, 1 being
the top and 7 being the bottom.
DISP line_number;textitem
Example
DISP 3;"A is" 2+2
Result: A is 4
(displayed on line 3)
DISPTIME
Displays the current date and time.
DISPTIME
To set the date and time, simply store the correct settings in
the date and time variables. Use the following formats:
M.DDYYYY for the date and H.MMSSfor the time.
Examples
5.152000 & DATE(sets the date to May 15, 2000).
10.1500 & TIME(sets the time to 10:15 am).
EDITMAT
Matrix Editor. Opens the Matrix editor for the specified
matrix. Returns to the program when user presses
EDITMAT matrixname
The EDITMATcommand can also be used to create matrices.
1. Press
2. Press
CMDS
*A,
M 1, and then press
.
3. The Matrix catalog opens with M1 available for editing.
EDITMATmatrixname is a shortcut to opening the
matrix editor with matrixname.
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FREEZE
GETKEY
This command prevents the display from being updated after
the program runs. This allows you to view the graphics
created by the program. Cancel FREEZEby pressing any key.
FREEZE
Waits for a key, then stores the keycode rc.p in name, where r
is row number, c is column number, and p is key-plane
number. The key-planes numbers are: 1 for unshifted; 2 for
shifted; 4 for alpha-shifted; and 5 for both alpha-shifted and
shifted.
GETKEYname
INPUT
Creates an input form with a title bar and one field. The field
has a label and a default value. There is text help at the bottom
of the form. The user enters a value and presses the
menu
key. The value that the user enters is stored in the variable
name. The title, label, and help items are text strings and need
to be enclosed in double quotes.
Use
CHARS to type the quote marks " ".
INPUTname;title,label;help;default
Example
INPUT R; "Circular Area";
"Radius";
"Enter Number";1:
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MSGBOX
Displays a message box containing textitem. A text item
consists of any number of expressions and quoted strings of
text. The expressions are evaluated and turned into strings of
text. For example,
"AREA IS:"2+2 becomes AREA IS:4. Use
CHARS
to type the quote marks " ".
MSGBOXtextitem:
Example
1& A:
MSGBOX "AREA IS: "π*A^2:
You can also use the NoteText variable to provide text
arguments. This can be used to insert line breaks. For
example, press
NOTE and type AREAIS
.
The position line
MSGBOXNoteText " " π*A^2:
will display the same message box as the previous example.
PROMPT
WAIT
Displays an input box with name as the title, and prompts for
a value for name. name can only be one character in length.
PROMPTname
Halts program execution for the specified number of seconds.
WAITseconds
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Stat-One and Stat-Two commands
The following commands are used for analysis of one-
variable and two-variable statistical data.
Stat-One commands
DO1VSTATS
Calculates STATS using datasetname and stores the results in
the corresponding variables: NΣ, TotΣ, MeanΣ, PVarΣ,
SVarΣ, PSDev, SSDev, MinΣ, Q1, Median, Q3, and MaxΣ.
Datasetname can be H1, H2, ..., or H5. Datasetname must
define at least two data points.
DO1VSTATSdatasetname
SETFREQ
Defines datasetname frequency according to column or value.
Datasetname can be H1, H2,..., or H5, column can be C0–C9
and value can be any positive integer.
SETFREQdatasetname;column
or
SETFREQdefinition;value
SETSAMPLE
Defines datasetname sample according to column.
Datasetname can be H1–H5, and column can be CO–C9.
SETSAMPLEdatasetname;column
Stat-Two commands
DO2VSTATS
Calculates STATS using datasetname and stores the results in
corresponding variables: MeanX, ΣX, ΣX2, MeanY, ΣY,
ΣY2, ΣXY, Corr, PCov, SCov, and RELERR. Datasetname
can be SI, S2,..., or S5. Datasetname must define at least four
pairs of data points.
DO2VSTATSdatasetname
SETDEPEND
SETINDEP
Defines datasetname dependent column. Datasetname can be
S1, S2, …, or S5 and column can be C0–C9.
SETDEPENDdatasetname;column
Defines datasetname independent column. Datasetname can
be S1, S2,…, or S5 and column can be C0–C9.
SETINDEPdatasetname;column
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Storing and retrieving variables in programs
The HP 39G/40G has both Home variables and Aplet
variables. Home variables are used for real numbers, complex
numbers, graphics, lists, and matrices. Home variables keep
the same values in HOME and in aplets.
Aplet variables are those whose values depend on the current
aplet. The aplet variables are used in programming to emulate
the definitions and settings you make when working with
aplets interactively.
You use the Variable menu (
) to retrieve either Home
variables or aplet variables. See “The VARS menu” on
page 11-4. Not all variables are available in every aplet.
S1fit–S5fit, for example, are only available in the Statistics
aplet.
Under each variable name is a list of the aplets where the
variable can be used.
Plot-view variables
The following aplet variables control the Plot view.
Area
)XQFWLRQ
Contains the last value found by the Area function in Plot-
FCN menu.
Axes
Turns axes on or off.
$OOꢀ$SOHWV
From Plot Setup, check (or uncheck) AXES.
or
In a program, type:
1 & Axes—to turn axes on (default).
0 & Axes—to turn axes off.
Connect
)XQFWLRQ
3DUDPHWULF
3RODU
Draws lines between successively plotted points.
From Plot Setup, check (or uncheck) CONNECT.
or
6ROYH
6WDWLVWLFV
In a program, type
1 & Connect—to connect plotted points (default,
except in Statistics where the default is off).
0 & Connect—not to connect plotted points.
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Coord
Turns the coordinate-display mode in Plot view on or off.
)XQFWLRQ
3DUDPHWULF
3RODU
6HTXHQFH
6ROYH
From Plot view, use the Menu mean key to toggle coordinate
display on an off.
In a program, type
1 &ꢀCoord—to turn coordinate display on (default).
0 &ꢀCoord—to turn coordinate display off.
6WDWLVWLFV
Extremum
)XQFWLRQ
Contains the last value found by the Extremum operation in
the Plot-FCN menu.
FastRes
)XQFWLRQ
6ROYH
Toggles resolution between plotting in every other column
(faster), or plotting in every column (more detail).
From Plot Setup, choose Faster or More Detail.
or
In a program, type
1 &ꢀFastRes—for faster (default).
0 &ꢀFastRes—for more detail.
Grid
$OOꢀ$SOHWV
Turns the background grid in Plot view on or off. From Plot
setup, check (or uncheck) GRID.
or
In a program, type
1 &ꢀGridto turn the grid on.
0 & Gridto turn the grid off (default).
Hmin/Hmax
Defines minimum and maximum values for histogram bars.
6WDWLVWLFV
From Plot Setup for one-variable statistics, set values for
HRNG.
or
In a program, type
n1 ꢀ& Hmin
n2 & Hmax
where n2 > n1
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Hwidth
Sets the width of histogram bars.
6WDWLVWLFV
From Plot Setup in 1VAR stats set a value for Hwidth
or
In a program, type
n& Hwidth
Indep
$OOꢀ$SOHWV
Defines the value of the independent variable used in tracing
mode.
In a program, type
n& Indep
InvCross
$OOꢀ$SOHWV
Toggles between solid crosshairs or inverted crosshairs.
(Inverted is useful if the background is solid).
From Plot Setup, check (or uncheck) InvCross
or
In a program, type:
1 & InvCross—to invert the crosshairs.
0 & InvCross—for solid crosshairs (default).
Isect
)XQFWLRQ
Contains the last value found by the Intersection function in
the Plot-FCN menu.
Labels
Draws labels in Plot view showing X and Y ranges.
$OOꢀ$SOHWV
From Plot Setup, check (or uncheck) Labels
or
In a program, type
1 &Labels—to turn labels on.
0 &Labels—to turn labels off (default).
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Nmin / Nmax
6HTXHQFH
Defines the minimum and maximum independent variable
values. Appears as the NRNGfields in the Plot Setup input
form.
From Plot Setup, enter values for NRNG.
or
In a program, type
n1 &Nmin
n2 &Nmax
where n2 > n1
Recenter
Recenters at the crosshairs locations when zooming.
$OOꢀ$SOHWV
From Plot-Zoom-Set Factors, check (or uncheck)
Recenter
or
In a program, type
1 & Recenter— to turn recenter on (default).
0 & Recenter—to turn recenter off.
Root
)XQFWLRQ
Contains the last value found by the Rootfunction in the
Plot-FCN menu.
S1mark–S5mark
Defines the mark to use for statistics 2-variable scatter plots.
6WDWLVWLFV
From Plot Setup for two-variable statistics, S1mark-
S5mark, then choose a mark.
or
In a program, type
n & S1mark
where n is 1,2,3,...5
SeqPlot
Toggles type of sequence plot: Stairstep or Cobweb.
6HTXHQFH
From Plot Setup, select SeqPlot, then choose Stairstep
or Cobweb.
or
In a program, type
1 &ꢀSeqPlot—for stairstep.
2&ꢀSeqPlot—for cobweb.
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Simult
Toggles between simultaneous and sequential graphing of all
selected expressions.
)XQFWLRQ
3DUDPHWULF
3RODU
From Plot Setup, check (or uncheck) _SIMULT
or
6HTXHQFH
In a program, type
1 & Simult—for simultaneous graphing.
0 & Simult—for sequential graphing.
Slope
)XQFWLRQ
Contains the last value found by the Slope function in the
Plot–FCN menu.
StatPlot
6WDWLVWLFV
Toggles type of 1–variable statistics plot between Histogram
or Box–and–Whisker.
From Plot Setup, select StatPlot, then choose
Histogramor BoxWhisker.
or
In a program, type
1&ꢀStatPlot—for Histogram.
2&ꢀStatPlot—for BoxWhisker.
Umin/Umax
3RODU
Defines the minimum and maximum independent values.
Appears as the URNGfield in the Plot Setup input form.
From the Plot Setup input form, enter values for URNG.
or
In a program, type
n1 & Umin
n2 & Umax
where n2 > n1
Ustep
Defines the step size for an independent variable.
3RODU
From the Plot Setup input form, enter values for USTEP.
or
In a program, type
n & Ustep
where n > 0
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Tmin / Tmax
3DUDPHWULF
Defines the minimum and maximum independent variable
values. Appears as the TRNGfield in the Plot Setup input
form.
From Plot Setup, enter values for TRNG.
or
In a program, type
n1 &ꢀTmin
n2 &ꢀTmax
where n2 > n1
Tracing
$OOꢀ$SOHWV
Turns tracing mode on or off in Plot view.
In a program, type
1 & Tracing—to turn Tracing mode on (default).
0 & Tracing—to turn Tracing mode off.
Tstep
Defines the step size for an independent variable.
3DUDPHWULF
From the Plot Setup input form, enter values for TSTEP.
or
In a program, type
n & Tstep
where n > 0
Xcross
$OOꢀ$SOHWV
Defines the horizontal coordinate of crosshairs. Only works
with TRACEoff.
In a program, type
n & Xcross
Ycross
$OOꢀ$SOHWV
Defines the vertical coordinate of crosshairs. Only works with
TRACEoff.
In a program, type
n & Ycross
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Xtick
$OOꢀ$SOHWV
Defines the distance between tick marks for the horizontal
axis.
From the Plot Setup input form, enter a value for Xtick.
or
In a program, type
n & Xtick where n > 0
Ytick
Defines the distance between tick marks for the vertical axis.
$OOꢀ$SOHWV
From the Plot Setup input form, enter a value for Ytick.
or
In a program, type
n & Ytick where n > 0
Xmin / Xmax
$OOꢀ$SOHWV
Defines the minimum and maximum horizontal values of the
plot screen. Appears as the XRNGfields (horizontal range) in
the Plot Setup input form.
From Plot Setup, enter values for XRNG.
or
In a program, type
n1 & Xmin
n2 & Xmax
where n2 > n1
Ymin / Ymax
$OOꢀ$SOHWV
Defines the minimum and maximum vertical values of the
plot screen. Appears as the YRNGfields (vertical range) in the
Plot Setup input form.
From Plot Setup, enter the values for YRNG.
or
In a program, type
n1 & Ymin
n2 & Ymax
where n2 > n1
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Xzoom
Sets the horizontal zoom factor.
$OOꢀ$SOHWV
From Plot-ZOOM-Set Factors, enter the value for XZOOM.
or
In a program, type
n & XZOOM
where n > 0
Yzoom
Sets the vertical zoom factor.
$OOꢀ$SOHWV
From Plot-ZOOM-Set Factors, enter the value for YZOOM.
or
In a program, type
n & YZOOM
Symbolic-view variables
The following aplet variables available in the Symbolic view.
Angle
Sets the angle mode.
$OOꢀ$SOHWV
From Symbolic Setup, choose Degrees, Radians, or
Gradsfor angle measure.
or
In a program, type
1 &ꢀAngle—for Degrees.
2 &ꢀAngle—for Radians.
3 &ꢀAngle—for Grads.
F1...F9, F0
)XQFWLRQ
Can contain any expression. Independent variable is X.
Example
’SIN(X)’ & F1(X)
In the above example, you must put single quotes around the
expression to keep it from being evaluated before it is stored.
Use
CHARS to type the single quote mark.
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X1, Y1...X9,Y9
X0,Y0
3DUDPHWULF
Can contain any expression. Independent variable is T.
Example
’SIN(4*T)’ & Y1(T):’2*SIN(6*T)’ STO&
X1(T)
R1...R9, R0
3RODU
Can contain any expression. Independent variable is θ.
Example
’2*SIN(2*θ)’ & R1(θ)
U1...U9, U0
6HTXHQFH
Can contain any expression. Independent variable is N.
Example
RECURSE (U,U(N-1)*N,1,2) & U1(N)
E1...E9, E0
6ROYH
Can contain any equation or expression. Independent variable
is selected by highlighting it in Numeric View.
Example
’X+Y*X-2=Y’ & E1
S1fit...S5fit
6WDWLVWLFV
Defines the type of fit to be used by the FIT operation in
drawing the regression line.
From Symbolic Setup view, specify the fit in the field for
S1FIT, S2FIT, etc.
or
In a program, store one of the following constant names or
numbers into a variable S1fit, S2fit, etc.
1. Linear
2. LogFit
3. ExpFit
4. Power
5. QuadFit
6. Cubic
7. Logist
8. Userdefined
Example
Cubic & S2fit
or
6 & S2fit
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Numeric-view variables
The following aplet variables control the Numeric view. The
value of the variable applies to the current aplet only.
C1...C9, C0
C0through C9, for columns of data. Can contain lists.
6WDWLVWLFV
Enter data in the Numeric view
or
In a program, type
LIST&Cn
where n = 0, 1, 2, 3 ... 9
Digits
Number of decimal places to use for Number format.
$OOꢀ$SOHWV
From Solve’s Numeric Setup view, enter a value in the second
field of Number Format.
or
In a program, type
n & Digits
where 0 <n <11
Except in Solve, the value of Digitstakes effect only after
the current aplet is saved with a new name. Until then,
HDigitis in effect.
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Format
Defines the number display format.
$OOꢀ$SOHWV
From Solve’s Numeric Setup view, choose Standard,
Fixed, Scientific, or Engineeringin the Number
Formatfield.
or
In a program, store the constant name (or its number) into the
variable Format.
1. Standard
2. Fixed
3. Scientific
4. Engineering
Note: Fraction is not a valid mode in aplets.
Except in Solve, the value of Format takes effect only after the
current aplet is saved with a new name. Until then, HFormat
is in effect.
Example
Scientific& Format
or
3 & Format
NumCol
$OOꢀ$SOHWVꢀH[FHSWꢀ
6WDWLVWLFVꢀDSOHW
Defines the highlighted column in Numeric view.
In a program, type
n & NumCol
where n can be 0, 1, 2, 3, 4, 5, 6, 7, 8, 9.
NumFont
)XQFWLRQ
3DUDPHWULF
3RODU
Toggles the font size in Numeric view. Does not appear in the
Num Setup input form. Corresponds to the BIG key in
Numeric view.
In a program, type
6HTXHQFH
6WDWLVWLFV
0 & NumFontfor small (default).
1 & NumFontfor big.
NumIndep
)XQFWLRQ
3DUDPHWULF
3RODU
List of independent values used by Build Your Own Table.
In a program, type
LIST& NumIndep
6HTXHQFH
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NumRow
$OOꢀ$SOHWVꢀH[FHSWꢀ
6WDWLVWLFVꢀDSOHW
Defines the highlighted row in Numeric view.
In a program, type
n & NumRow
where n > 0
NumStart
)XQFWLRQ
3DUDPHWULF
3RODU
Defines the starting value for a table in Numeric view.
From Num Setup, enter a value for NUMSTART.
or
6HTXHQFH
In a program, type
n & NumStart
NumStep
)XQFWLRQ
3DUDPHWULF
3RODU
Defines the step size (increment value) for an independent
variable in Numeric view.
From Num Setup, enter a value for NUMSTEP.
or
6HTXHQFH
In a program, type
n & NumStep
where n > 0
NumType
)XQFWLRQ
3DUDPHWULF
3RODU
Choose a table format.
From Num Setup, choose Automaticor BuildYour
Own.
or
6HTXHQFH
In a program, type
0 & NumTypefor Build Your Own.
1 & NumTypefor Automatic (default).
NumZoom
)XQFWLRQ
3DUDPHWULF
3RODU
Defines the Zoom factor in the Numeric view.
From Num Setup, type in a value for NUMZOOM.
or
6HTXHQFH
In a program, type
n & NumZoom
where n > 0
Programming
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StatMode
6WDWLVWLFV
Toggles between 1–variable and 2–variable statistics in the
Statistics aplet. Does not appear in the Plot Setup input form.
Corresponds to the
View.
and
menu keys in Numeric
In a program, store the constant name (or its number) into the
variable StatMode. 1VAR=1, 2VAR=2.
Example
1VAR & StatMode
or
1 & StatMode
Note variables
The following aplet variable is available in Note view.
NoteText
Use NoteText to recall text previously entered in Note view.
$OOꢀ$SOHWV
Sketch variables
The following aplet variables are available in Sketch view.
Page
$OOꢀ$SOHWV
Defines a page in a sketch set. A sketch set can contain up to
10 graphics. The graphics can be viewed one at a time using
the
and
keys.
The Page variable refers to the currently displayed page of a
sketch set.
In a program, type
graphicname & Page
PageNum
$OOꢀ$SOHWV
Index for referring to a particular page of the sketch set (in
Sketch view).
In a program, type the page that is shown when
is pressed.
SKETCH
n & PageNum
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16
Extending aplets
Aplets are the application environments where you explore
different classes of mathematical operations.
You can extend the capability of the HP 39G/40G in the
following ways:
•
Create new aplets, based on existing aplets, with specific
configurations such as angle measure, graphical or
tabular settings, and annotations.
•
•
•
Transmit aplets between HP 39G calculators via an infra
red link.
Download e-lessons (teaching aplets) from the Hewlett-
Packard’s Calculator web site.
Program new aplets. See chapter 15, Programming, for
further details.
Creating new aplets based on existing
aplets
You can create a new aplet based on an existing aplet. To
create a new aplet, save an existing aplet under a new name,
then modify the aplet to add the configurations and the
functionality that you want. You can send your aplet to other
calculators so that other people can use it.
Information that defines an aplet is saved automatically as it
is entered into the calculator.
To keep as much memory available for storage as possible,
delete any aplets you no longer need.
Extending aplets
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Aplet Keys
Key
Meaning
Saves the highlighted aplet with a name.
Resets the default values and settings in
the highlighted aplet. This erases any
stored data or functions.
Alphabetically or chronologically sorts
the items in the Aplet Library menu list.
Transmits the highlighted aplet to
another HP 39G/40G or a storage
device.
Receives the aplet sent from another
HP 39G/40G or storage device.
(receive)
(or
Opens the selected aplet.
)
Example: To create
a new aplet from an
existing Solve aplet
A simple example of a customized aplet is the TRIANGLES
aplet. This aplet is a copy of the Solve aplet containing the
formulas commonly used in calculations involving
right–angled triangles.
1. In APLET, highlight Solveand SAVE it under the new
name.
Select Solve
T R I A N G L E S
2. Enter the four formulas:
θ
O
j
H
θ
θ
ꢁ
A j
H
O j
A
A
ꢁ
B
ꢁ
C
16-2
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3. Decide whether you want the aplet to operate in Degrees,
Radians, or Grads.
MODES
Select Degrees
4. Ensure the TRIANGLES aplet is saved in the Aplet
Library.
The Solve aplet can now
be reset and used for other
problems.
Example: To use
the customized
aplet
To use the aplet, simply select the appropriate formula,
change to the Numeric view and solve for the missing
variable.
Find the length of a ladder leaning against a vertical wall if it
o
forms an angle of 35 with the horizontal and extends 5 metres
up the wall.
1. Select the aplet.
Select
TRIANGLES
2. Choose the sine formula in
E1.
*k,*k,*k,*k,ꢀ
3. Change to the Numeric
view and enter the known
values.
35
5
Extending aplets
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4. Solve for the missing
value.
The length of the ladder is
approximately 8.72 metres
Resetting an aplet
Resetting an aplet clears all data and resets all default settings.
To reset an aplet, open the Library, select the aplet and press
.
You can only reset an aplet that is based on a built-in aplet if
the programmer who created it has provided a Reset option.
Annotating an aplet with notes
The Note view (
NOTE) attaches a note to the current
aplet. See Chapter 14, “Notes and Sketches.”
Annotating an aplet with sketches
The Sketch view (
SKETCH) attaches a picture to the
current aplet. See chapter 14, “Notes and sketches”.
H I N T
Notes and sketches that you attach to an aplet become part of
the aplet. When you transfer the aplet to another calculator,
the associated note and sketch are transferred as well.
Downloading e-lessons from the web
In addition to the standard aplets that come with the
calculator, you can download aplets from the world wide web.
For example, Hewlett-Packard’s Calculators web site
contains aplets that demonstrate certain mathematical
concepts. Note that you need the Graphing Calculator
Connectivity Kit in order to load aplets from a PC.
Hewlett-Packard’s Calculators web site can be found at:
www.hp.com/calculators
16-4
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Sending and receiving aplets
A convenient way to distribute or share problems in class and
to turn in homework is to transmit (copy) aplets directly from
one HP 39G to another. This takes place via the infrared port.
You can also send aplets to, and receive aplets from, a remote
storage device (aplet disk drive or computer). This takes place
via a cable connection and requires an aplet disk drive or
special software running on a PC (such as the PC Connectivity
Kit). Note: The HP 40G does not have an IR port. A PC
adapter and unit–to–unit cable is supplied instead.
To transmit an
aplet
1. Connect the storage device to the calculator by cable
or
align the two calculators’ infrared ports by matching up
the triangle marks on the rims of the calculators. Place
the calculators no more than 2 inches (5 cm) apart.
2. Sending calculator: Open the Library, highlight the aplet
to send, and press
.
–
You have two options: another HP 39G or a disk
drive on a PC. Highlight your selection and press
.
–
If transmitting to a disk drive, you have the options of
sending to the current (default) directory or to
another directory.
3. Receiving calculator: Open the aplet library and press
.
–
You have two options: another HP 39G or a disk
drive (or computer). Highlight your selection and
press
.
The Transmit annunciator— —is displayed until
transmission is complete.
If you are using the PC Connectivity Kit to download aplets
from a PC, you will see a list of aplets in the PC’s current
directory. Check as many items as you would like to receive.
Extending aplets
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Sorting items in the aplet library menu list
Once you have entered information into an aplet, you have
defined a new version of an aplet. The information is
automatically saved under the current aplet name, such as
“Function.” To create additional aplets of the same type, you
must give the current aplet a new name.
The advantage of storing an aplet is to allow you to keep a
copy of a working environment for later use.
The aplet library is where you go to manage your aplets. Press
. Highlight (using the arrow keys) the name of the
aplet you want to act on.
To sort the
aplet list
In the aplet library, press
press
. Select the sorting scheme and
.
• Chronologicallyproduces a chronological order
based on the date an aplet was last used. (The last-used
aplet appears first, and so on.)
• Alphabeticallyproduces an alphabetical order by
aplet name.
To delete an
aplet
You cannot delete a built-in aplet. You can only clear its data
and reset its default settings.
To delete a customized aplet, open the aplet library, highlight
the aplet to be deleted, andess
aplets, press
. To delete all custom
CLEAR.
16-6
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R
Reference information
Regulatory information
This section contains information that shows how the
HP 39G/40G graphing calculator complies with regulations in
certain regions. Any modifications to the calculator not
expressly approved by Hewlett-Packard could void the
authority to operate the HP 39G/40G in these regions.
USA
This calculator generates, uses, and can radiate radio
frequency energy and may interfere with radio and television
reception. The calculator complies with the limits for a Class
B digital device, pursuant to Part 15 of the FCC Rules. These
limits are designed to provide reasonable protection against
harmful interference in a residential installation.
However, there is no guarantee that interference will not occur
in a particular installation. In the unlikely event that there is
interference to radio or television reception (which can be
determined by turning the calculator off and on), the user is
encouraged to try to correct the interference by one or more of
the following measures:
•
•
Reorient or relocate the receiving antenna.
Relocate the calculator, with respect to the receiver.
Connections to
peripheral
devices
To maintain compliance with FCC Rules and Regulations, use
only the cable accessories provided.
Canada
This Class B digital apparatus complies with Canadian EMC
Class B requirements.
Cet appareil numérique de la classe B est comforme à la classe
B des normes canadiennes de compatibilité
électromagnétiques (CEM).
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LED safety
The infrared port located on the top of the calculator is
classified as a Class 1 LED (light emitting diode) device
according to International Standard IEC 825-1 (EN 60825-1.
This device is not considered harmful, but the following
precautions are recommended:
•
•
Do not attempt to make any adjustments to the unit.
Avoid direct eye exposure to the infrared LED beam. Be
aware that the beam is invisible light and cannot be seen.
•
Do not attempt to view the infrared LED beam with any
type of optical device.
CLASS 1 LED PRODUCT
LEDSCHÜTZKLASSE 1 PRODUKT
Warranty
HP 39G/40G Graphical Calculator
Warranty period: 12 months
1. HP warrants to you, the end-user customer, that HP
hardware, accessories and supplies will be free from
defects in materials and workmanship after the date of
purchase, for the period specified above. If HP receives
notice of such defects during the warranty period, HP
will, at its option, either repair or replace products which
prove to be defective. Replacement products may be
either new or like-new.
2. HP warrants to you that HP software will not fail to
execute its programming instructions after the date of
purchase, for the period specified above, due to defects in
material and workmanship when properly installed and
used. If HP receives notice of such defects during the
warranty period, HP will replace software media which
does not execute its programming instructions due to
such defects.
R-2
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3. HP does not warrant that the operation of HP products
will be uninterrupted or error free. If HP is unable, within
a reasonable time, to repair or replace any product to a
condition as warranted, you will be entitled to a refund of
the purchase price upon prompt return of the product.
4. HP products may contain re manufactured parts
equivalent to new in performance or may have been
subject to incidental use.
5. Warranty does not apply to defects resulting from (a)
improper or inadequate maintenance or calibration, (b)
software, interfacing, parts or supplies not supplied by
HP, (c) unauthorized modification or misuse, (d)
operation outside of the published environmental
specifications for the product, or (e) improper site
preparation or maintenance.
6. HP MAKES NO OTHER EXPRESS WARRANTY OR
CONDITION WHETHER WRITTEN OR ORAL. TO
THE EXTENT ALLOWED BY LOCAL LAW, ANY
IMPLIED WARRANTY OR CONDITION OF
MERCHANTABILITY, SATISFACTORY QUALITY,
OR FITNESS FOR A PARTICULAR PURPOSE IS
LIMITED TO THE DURATION OF THE EXPRESS
WARRANTY SET FORTH ABOVE. Some countries,
states or provinces do not allow limitations on the
duration of an implied warranty, so the above limitation
or exclusion might not apply to you. This warranty gives
you specific legal rights and you might also have other
rights that vary from country to country, state to state, or
province to province.
7. TO THE EXTENT ALLOWED BY LOCAL LAW, THE
REMEDIES IN THIS WARRANTY STATEMENT ARE
YOUR SOLE AND EXCLUSIVE REMEDIES.
EXCEPT AS INDICATED ABOVE, IN NO EVENT
WILL HP OR ITS SUPPLIERS BE LIABLE FOR LOSS
OF DATA OR FOR DIRECT, SPECIAL, INCIDENTAL,
CONSEQUENTIAL (INCLUDING LOST PROFIT OR
DATA), OR OTHER DAMAGE, WHETHER BASED
IN CONTRACT, TORT, OR OTHERWISE. Some
countries, States or provinces do not allow the exclusion
or limitation of incidental or consequential damages, so
the above limitation or exclusion may not apply to you.
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8. FOR CONSUMER TRANSACTIONS IN AUSTRALIA
AND NEW ZEALAND: THE WARRANTY TERMS
CONTAINED IN THIS STATEMENT, EXCEPT TO
THE EXTENT LAWFULLY PERMITTED, DO NOT
EXCLUDE, RESTRICT OR MODIFY AND ARE IN
ADDITION TO THE MANDATORY STATUTORY
RIGHTS APPLICABLE TO THE SALE OF THIS
PRODUCT TO YOU.
CAS
The HP 40G is packaged with a computerized algebra system
(CAS). Refer to the CAS User Manual for further
information.
Resetting the HP 39G/40G
If the calculator “locks up” and seems to be stuck, you must
reset it. This is much like resetting a PC. It cancels certain
operations, restores certain conditions, and clears temporary
memory locations. However, it does not clear stored data
(variables, aplet databases, programs) unless you use the
procedure below, “To erase all memory and reset defaults”.
To reset using
the keyboard
Press and hold the
simultaneously, then release them.
key and the third menu key
If the calculator does not respond to the above key sequence,
then:
1. Turn the calculator over and locate the small hole in the
back of the calculator.
2. Insert the end of a straightened metal paper clip into the
hole as far as it will go. Hold it there for 1 second, then
remove it.
3. Press
. If necessary, press
and the first and last
menu keys simultaneously.
R-4
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To erase all memory and reset defaults
If the calculator does not respond to the above resetting
procedures, you might need to restart it by erasing all of
memory. You will lose everything you have stored. All
factory-default settings are restored.
1. Press and hold the
key, the first menu key, and the
last menu key simultaneously.
2. Release all keys.
Note: To cancel this process, release only the top-row
keys, then press the third menu key.
If the calculator does not turn on
If the HP 39G/40G does not turn on follow the steps below
until the calculator turns on. You may find that the calculator
turns on before you have completed the procedure. If the
calculator still does not turn on, please contact Customer
Support for further information.
1. Press and hold the
2. Press and hold the
key for 10 seconds.
key and the third menu key
simultaneously. Release the third menu key, then release
the key.
3. Press and hold the
key, the first menu key, and the
sixth menu key simultaneously. Release the sixth menu
key, then release the first menu key, and then release the
key.
4. Locate the small hole in the back of the calculator. Insert
the end of a straightened metal paper clip into the hole as
far as it will go. Hold it there for 1 second, then remove
it. Press the
5. Remove the batteries (see “Batteries” on page R-7), press
and hold the key for 10 seconds, and then put the
batteries back in. Press the key.
key.
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Glossary
aplet
A small application, limited to one
topic. The built-in aplet types are
Function, Parametric, Polar, Sequence,
Solve, and Statistics. An aplet can be
filled with the data and solutions for a
specific problem. It is reusable (like a
program, but easier to use) and it records
all your settings and definitions.
command
An operation for use in programs.
Commands can store results in
variables, but do not display results.
Arguments are separated by semi-
colons, such as DISPexpression;line#.
expression
function
A number, variable, or algebraic
expression (numbers plus functions)
that produces a value.
An operation, possibly with arguments,
that returns a result. It does not store
results in variables. The arguments must
be enclosed in parentheses and
separated with commas (or periods in
Comma mode), such as
CROSS(matrix1,matrix2).
HOME
The basic starting point of the
calculator. Go to HOME to do
calculations.
Library
list
For aplet management: to start, save,
reset, send and receive aplets.
A set of values separated by commas
(periods if the Decimal Mark is Comma)
and enclosed in braces. Lists are
commonly used to enter statistical data
and to evaluate a function with multiple
values. Created and manipulated by the
List editor and catalog.
matrix
A two-dimensional array of values
separated by commas (periods if the
Decimal Mark is Comma) and enclosed
in nested brackets. Created and
manipulated by the Matrix catalog and
editor. Vectors are also handled by the
Matrix catalog and editor.
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menu
A choice of options given in the display.
It can appear as a list or as a set of menu-
key labels across the bottom of the
display.
menu keys
The top row of keys. Their operations
depend on the current context. The
labels along the bottom of the display
show the current meanings.
note
Text that you write in the Notepad or in
the Note view for a specific aplet.
program
sketch
variable
A reusable set of instructions that you
record using the Program editor.
A drawing that you make in the Sketch
view for a specific aplet.
The name of a number, list, matrix, note,
or graphic that is stored in memory. Use
to store and use
to retrieve.
vector
A one-dimensional array of values
separated by commas (periods if the
Decimal Mark is Comma) and enclosed
in single brackets. Created and
manipulated by the Matrix catalog and
editor.
views
The possible contexts for an aplet: Plot,
Plot Setup, Numeric, Numeric Setup,
Symbolic, Symbolic Setup, Sketch,
Note, and special views like split
screens.
Operating details
Operating temperature: 0° to 45°C (32° to 113°F).
Storage temperature: –20° to 65°C (–4° to 149°F).
Operating and storage humidity: 90% relative humidity at
40°C (104°F) maximum. Avoid getting the calculator wet.
Battery operates at 4.5V dc, 60mA maximum.
Batteries
When battery power is low, the ((•)) annunciator stays on,
even when the calculator is off. There is also a warning
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message that appears when the calculator is on:
Warning: Low Bat.
The HP 39G/40G uses three AAA batteries. Be sure all three
are of the same brand and type. Rechargeable batteries are not
recommended because of their lower capacity and more
sudden demise.
To replace batteries:
1. Turn the calculator off and place the slide cover over the
keyboard to prevent keys from being pressed.
CAUTION
Your calculator can lose memory if it is turned on while the
batteries are being removed.
Under no circumstances should the batteries be deliberately
inserted backwards and the calculator turned on. This may
cause hardware damage and will void the warranty.
2. Remove the battery compartment door from the rear of
the calculator by pressing down on the dimple and
pushing the door off.
3. Replace the batteries within 2 minutes to avoid memory
loss. Position the fresh batteries according to the diagram
inside the battery compartment.
The Netherlands
This regulation applies only to The Netherlands.
Batteries are delivered with this
product. When empty do not throw
them away but collect as small
chemical waste.
Bij dit produkt zijn batterijen
geleverd. Wanneer deze leeg zijn,
moet u ze niet weggoolen maar
inlevern als KCA.
Menu maps of the VARS menu
Home variables
The home variables are:
Category
Available name
Complex
Z1...Z9, Z0
R-8
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Category
Graphic
Library
Available name (Continued)
G1...G9, G0
Function
Parametric
Polar
Sequence
Solve
Statistics
User-named
List
L1...L9, L0
M1...M9, M0
Matrix
Modes
Ans
Date
HAngle
HDigits
HFormat
Ierr
Time
Notepad
Program
User-named
Editline
User-named
Real
A...Z, θ
Function aplet variables
The function aplet variables are:
Category
Available name
Plot
Axes
Xcross
Ycross
Xtick
Ytick
Xmin
Connect
Coord
FastRes
Grid
Indep
InvCross
Labels
Recenter
Simult
Tracing
Xmax
Ymin
Ymax
Xzoom
Yxoom
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Category
Available name (Continued)
Plot-FCN
Area
Extremum
Isect
Root
Slope
Symbolic
Numeric
Angle
F1
F6
F7
F8
F9
F0
F2
F3
F4
F5
Digits
Format
NumCol
NumFont
NumIndep
NumRow
NumStart
NumStep
NumType
NumZoom
Note
NoteText
Page
Sketch
PageNum
Parametric aplet variables
The parametric aplet variables are:
Category
Available name
Plot
Axes
Tracing
Tstep
Xcross
Ycross
Xtick
Ytick
Xmin
Connect
Coord
Grid
Indep
InvCross
Labels
Recenter
Simult
Tmin
Xmax
Ymin
Ymax
Xzoom
Yzoom
Tmax
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Category
Available name (Continued)
Symbolic
Angle
X1
Y5
X6
Y6
X7
Y7
X8
Y8
X9
Y9
X0
Y0
Y1
X2
Y2
X3
Y3
X4
Y4
X5
Numeric
Digits
Format
NumCol
NumFont
NumIndep
NumRow
NumStart
NumStep
NumType
NumZoom
Note
NoteText
Page
Sketch
PageNum
Polar aplet variables
The polar aplet variables are:
Category
Available names
Axes
Connect
Coord
Xcross
Ycross
Xtick
Ytick
Xmin
Grid
Indep
InvCross
Labels
Recenter
Simult
Umin
Xmax
Ymin
Ymax
Xzoom
Yxoom
Umax
θstep
Tracing
Symbolic
Angle
R1
R6
R7
R8
R9
R0
R2
R3
R4
R5
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Category
Available names (Continued)
Numeric
Digits
Format
NumCol
NumFont
NumIndep
NumRow
NumStart
NumStep
NumType
NumZoom
Note
NoteText
Page
Sketch
PageNum
Sequence aplet variables
The sequence aplet variables are:
Category
Available name
Plot
Axes
Coord
Grid
Indep
InvCross
Labels
Nmin
Tracing
Xcross
Ycross
Xtick
Ytick
Xmin
Xmax
Nmax
Ymin
Recenter
SeqPlot
Simult
Ymax
Xzoom
Yzoom
Symbolic
Numeric
Angle
U1
U2
U3
U4
U6
U7
U8
U9
U0
U5
Digits
Format
NumCol
NumFont
NumIndep
NumRow
NumStart
NumStep
NumType
NumZoom
Note
NoteText
Page
Sketch
PageNum
R-12
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Solve aplet variables
The solve aplet variables are:
Category
Available name
Plot
Axes
Connect
Coord
FastRes
Grid
Xcross
Ycross
Xtick
Ytick
Xmin
Indep
Xmax
InvCross
Labels
Recenter
Tracing
Ymin
Ymax
Xzoom
Yxoom
Symbolic
Numeric
Angle
E1
E2
E3
E4
E6
E7
E8
E9
E0
E5
Digits
Format
NumCol
NumRow
Note
NoteText
Page
Sketch
PageNum
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R-13
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Statistics aplet variables
The statistics aplet variables are:
Category
Available name
Plot
Axes
S4mark
S5mark
StatPlot
Tracing
Xcross
Ycross
Xtick
Ytick
Xmin
Connect
Coord
Grid
Hmin
Hmax
Hwidth
Indep
InvCross
Labels
Recenter
S1mark
S2mark
S3mark
Xmax
Ymin
Ymax
Xzoom
Yxoom
Symbolic
Numeric
Angle
S1fit
S2fit
S3fit
S4fit
S5fit
C0,...C9
Digits
Format
NumCol
NumFont
NumRow
StatMode
Stat-One
Stat-Two
MaxΣ
MeanΣ
Median
MinΣ
NΣ
Q3
PSDev
SSDev
PVarΣ
SVarΣ
TotΣ
Q1
Corr
Cov
Fit
MeanX
MeanY
RelErr
ΣX
ΣX2
ΣXY
ΣY
ΣY2
Note
NoteText
Page
Sketch
PageNum
R-14
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Menu maps of the MATH menu
Math functions
The math functions are:
Category
Available name
Calculus
%
)
TAYLOR
Complex
Constant
ARG
IM
RE
CONJ
e
i
MAXREAL
MINREAL
π
Hyperb.
List
ACOSH
ASINH
ATANH
COSH
TANH
ALOG
EXP
EXPM1
LNP1
SINH
CONCAT
∆LIST
MAKELIST
πLIST
POS
REVERSE
SIZE
ΣLIST
SORT
Loop
ITERATE
RECURSE
Σ
Matrix
COLNORM
COND
QR
RANK
CROSS
DET
ROWNORM
RREF
DOT
SCHUR
SIZE
SPECNORM
SPECRAD
SVD
EIGENVAL
EIGENVV
IDENMAT
INVERSE
LQ
SVL
LSQ
LU
TRACE
TRN
MAKEMAT
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R-15
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Category
Available name (Continued)
Polynom.
POLYCOEF
POLYEVAL
POLYFORM
POLYROOT
Prob.
Real
COMB
!
PERM
RANDOM
UTPC
UTPF
UTPN
UTPT
CEILING
DEG→RAD
FLOOR
FNROOT
FRAC
HMS→
→HMS
INT
MIN
MOD
%
%CHANGE
%TOTAL
RAD→DEG
ROUND
SIGN
MANT
MAX
TRUNCATE
XPON
Stat-Two
Symbolic
PREDX
PREDY
=
QUAD
QUOTE
|
ISOLATE
LINEAR?
Tests
AND
IFTE
NOT
OR
<
≤
= =
≠
XOR
>
≥
Trig
ACOT
ACSC
ASEC
COT
CSC
SEC
R-16
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Program constants
The program constants are:
Category
Available name
Angle
Degrees
Grads
Radians
Format
Standard
Fixed
Sci
Eng
Fraction
SeqPlot
S1...5fit
Cobweb
Stairstep
Linear
LogFit
ExpFit
Power
QuadFit
Cubic
Logist
User
StatMode
StatPlot
Stat1Var
Stat2Var
Hist
BoxW
Reference information
R-17
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Program commands
The program commands are:
Category
Command
Aplet
CHECK
SELECT
SETVIEWS
UNCHECK
Branch
IF
CASE
IFERR
RUN
THEN
ELSE
END
STOP
Drawing
Graphic
ARC
LINE
BOX
PIXOFF
PIXON
TLINE
ERASE
FREEZE
DISPLAYR
RDISPLAY
RGROB
GROBNOT
GROBOR
GROBXOR
MAKEGROB
PLOTR
RPLOT
REPLACE
SUB
ZEROGROB
Loop
FOR
=
UNTIL
END
TO
WHILE
REPEAT
END
STEP
END
DO
BREAK
Matrix
ADDCOL
ADDROW
DELCOL
DELROW
EDITMAT
RANDMAT
REDIM
REPLACE
SCALE
SCALEADD
SUB
SWAPCOL
SWAPROW
Print
PRDISPLAY
PRHISTORY
PRVAR
Prompt
BEEP
GETKEY
INPUT
MSGBOX
PROMPT
WAIT
CHOOSE
DISP
DISPTIME
EDITMAT
FREEZE
Stat-One
Stat-Two
DO1VSTATS
RANDSEED
SETFREQ
SETSAMPLE
DO2VSTATS
SETDEPEND
SETINDEP
R-18
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Selected status messages
The status messages are:
Message
Meaning
Bad Argument Type Incorrect input for this operation.
Bad Argument
Value
The value is out of range for this
operation.
Infinite Result
Math exception, such as 1/0.
Insufficient
Memory
You must recover some memory
to continue operation. Delete one
or more matrices, lists, notes, or
programs (using catalogs), or
custom (not built-in) aplets (using
MEMORY).
Insufficient
Statistics Data
Not enough data points for the
calculation. For two-variable
statistics there must be two
columns of data, and each column
must have at least four numbers.
Invalid Dimension
Array argument had wrong
dimensions.
Invalid Statistics
Data
Need two columns with equal
numbers of data values.
Invalid Syntax
The function or command you
entered does not include the
proper arguments or order of
arguments. The delimiters
(parentheses, commas, periods,
and semi-colons) must also be
correct. Look up the function
name in the index to find its
proper syntax.
Name Conflict
The | (where) function attempted
to assign a value to the variable of
integration or summation index.
No Equations
Checked
You must enter and check an
equation (Symbolic view) before
evaluating this function.
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R-19
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Message
Meaning (Continued)
(OFF SCREEN)
Function value, root, extremum,
or intersection is not visible in the
current screen.
Receive Error
Problem with data reception from
another calculator. Re-send the
data.
Too Few
Arguments
The command requires more
arguments than you supplied.
Undefined Name
The global variable named does
not exist.
Undefined Result
The calculation has a
mathematically undefined result
(such as 0/0).
Out of Memory
You must recover a lot of
memory to continue operation.
Delete one or more matrices, lists,
notes, or programs (using
catalogs), or custom (not built-in)
aplets (using
MEMORY).
R-20
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Index
aplet views
canceling operations in 1-1
A
absolute value 10-6
add 10-4
changing 1-17
note 1-16
Numeric view 1-15
Plot view 1-15
sketch 1-17
algebraic entry 1-18
alpha characters
typing 1-6
alphabetical sorting 16-6
angle measure 1-9
in statistics 8-10
setting 1-11
split-screen 1-16
Symbolic view 1-15
arc cosecant 10-21
arc cosine 10-5
arc cotangent 10-21
arc secant 10-21
arc sine 10-5
arc tangent 10-5
area
graphical 3-10
interactive 3-10
variable 15-30
arguments
with matrices 12-10
attaching
a note to an aplet 14-1
a sketch to an aplet 14-3
auto scale 2-14
axes
animation 14-5
creating 14-5
annunciators 1-3
Ans (last answer) 1-22
antilogarithm 10-4, 10-10
aplet
attaching notes 16-4
clearing 16-4
copying 16-5
definition of R-6
deleting 16-6
Function 10-22
Inference 9-2
key 1-4
library 16-6
Note view 14-1
opening 1-15
Parametric 4-1
Polar 5-1
plotting 2-6
variable 15-30
B
receiving 16-5
resetting 16-4
sending 16-5
Sketch view 14-1
Solve 7-1
bad argument R-19
bad guesses error message 7-7
batteries
changing R-8
sorting 16-6
statistics 8-1
low-battery warning R-8
box-and-whisker plot 8-16
branch commands
aplet commands
CHECK 15-14
SELECT 15-14
SETVIEWS 15-17
UNCHECK 15-17
aplet variables
definition 11-1, 11-8
in Plot view 15-30
new 11-1
CASE...END 15-18
IF...THEN...ELSE...END 15-18
IFERR...THEN...ELSE 15-18
RUN 15-19
STOP 15-19
branch structures 15-17
build your own table 2-19
Index
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connectivity kit 16-5
constant? error message 7-7
constants 10-9
e 10-9
C
calculus
operations 10-8
catalogs 1-28
i 10-9
chronological sorting 16-6
circle drawing 14-4
clearing
maximum real number 10-9
minimum real number 10-9
program R-17
aplet 16-4
characters 1-21
display 1-21
display history 1-24
edit line 1-21
contrast
decreasing display 1-2
increasing display 1-2
coordinate display 2-8
copying
lists 13-6
plot 2-6
display 1-21
graphics 14-6
notes 14-8
programs 15-8
cobweb graph 6-2
coefficients
polynomial 10-12
columns
changing position 15-24
combinations 10-13
comma mode
correlation
coefficient 8-17
CORR 8-17
statistical 8-14
cosecant 10-21
cosine 10-4
inverse hyperbolic 10-9
cotangent 10-21
covariance
statistical 8-14
creating
with matrices 13-7
commands
aplet 15-14
Branch 15-17
definition of R-6
Drawing 15-19
Graphic 15-20
Loop 15-22
aplet 16-1
notes in Notepad 14-6
programs 15-4
sketches 14-3
Print 15-25
Program 15-5, R-18
Prompt 15-25
critical value(s) displayed 9-4
cross product
vector 12-10
curve fitting 8-11, 8-17
Stat-One 15-29
Stat-Two 15-29
with matrices 12-10
complex functions 10-6, 10-18
complex number functions
conjugate 10-8
imaginary part 10-8
real part 10-8
D
data set definition 8-7
date, setting 15-26
complex numbers 1-27
debugging programs 15-7
decimal
entering 1-27
maths functions 10-8
storing 1-28
changing marker format 1-10
scaling 2-14, 2-16
confidence intervals 9-16
conjugate 10-8
connecting
decreasing display contrast 1-2
definite integral 10-7
data points 8-18
variable 15-30
I-2
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deleting
aplet 16-6
E
e 10-9
edit line 1-2
editing
lists 13-6
matrices 12-4
programs 15-9
statistical data 8-10
delimiters, programming 15-1
derivatives
definition of 10-7
in Function aplet 10-24
in Home 10-23
determinant
matrices 12-4
notes 14-2
programs 15-5
Editline
Program catalog 15-2
editors 1-28
eigenvalues 12-11
eigenvectors 12-11
element
square matrix 12-10
differentiation 10-7
display 15-20
storing 12-5
E-lessons 1-11
engineering number format 1-10
equals
for equations 10-19
logical test 10-20
equations
adjusting contrast 1-2
annunciator line 1-2
capture 15-20
clearing 1-2
date and time 15-26
element 12-5
engineering 1-10
fixed 1-10
fraction 1-10
history 1-21
solving 7-1
erasing a line in Sketch view 15-20
error messages
bad guesses 7-7
constant? 7-7
line 1-21
list elements 13-4
matrices 12-5
parts of 1-2
printing contents 15-25
rescaling 2-14
scientific 1-10
scrolling through history 1-23
soft key labels 1-2
standard 1-10
exclusive OR 10-21
executing programs 15-7
exiting views 1-17
exponent
minus 1 10-10
of value 10-18
raising to 10-6
expression
defining 2-1, R-6
entering in HOME 1-18
evaluating in aplets 2-3
literal 10-20
divide 10-4
drawing
circles 14-4
keys 14-4
lines and boxes 14-3
Drawing commands
ARC 15-19
plot 3-3
extremum
interactive 3-9
BOX 15-19
F
ERASE 15-19
FREEZE 15-20
LINE 15-20
PIXOFF 15-20
PIXON 15-20
factorial 10-13
FastRes variable 15-31
fit
a curve to 2VAR data 8-17
choosing 8-11
defining your own 8-12
regression curve 1-29
TLINE 15-20
Index
I-3
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fixed number format 1-10
font size
one-variable statistics 8-18
overlaying 2-16
scatter 8-15, 8-16
split-screen view 2-15
splitting into plot and close-up 2-14
splitting into plot and table 2-14
stairsteps 6-2
statistical data 8-15
t values 2-5
change 3-8, 14-5
forecasting 8-21
fraction number format 1-10
full-precision display 1-10
function
analyse graph with FCN tools 3-3
definition 2-2
definition of R-6
entering 1-18
tickmarks 2-6
tracing 2-8
Graphic commands
gamma 10-13
DISPLAY 15-20
GROB 15-21
GROBNOT 15-21
GROBOR 15-21
GROBXOR 15-21
MAKEGROB 15-21
PLOT 15-21
REPLACE 15-22
SUB 15-22
ZEROGROB 15-22
intersection point 3-4
math menu R-15
quadratic 3-4
slope 3-5
syntax 10-3
tracing 2-8
Function aplet 2-21, 3-1
function variables
Area 15-30
Axes 15-30
graphics
Connect 15-30
FastRes 15-31
Grid 15-31
in menu map R-9
Indep 15-32
copying 14-6
copying into Sketch view 14-6
storing and recalling 14-6, 15-20
guarantee R-2
Isect 15-32
Labels 15-33
H
histogram 8-15
Recenter 15-33
Root 15-33
Ycross 15-36
adjusting 8-15
range 8-18
setting min/max values for bars
15-31
width 8-18
G
glossary R-6
history 1-2, 15-25
Home 1-1
graph
analyzing statistical data in 8-20
auto scale 2-14
box-and-whisker 8-16
capture current display 15-20
cobweb 6-2
calculating in 1-18
display 1-2
evaluating expressions 2-3
reusing lines 1-21
home variables 11-1, R-8
definition 11-7
comparing 2-5
connected points 8-16
defining the independent variable
15-35
horizontal zoom 15-37
hyperbolic
maths functions 10-10
drawing axes 2-6
expressions 3-3
grid points 2-6
in Solve aplet 7-8
index values 2-6
I-4
Index
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hyperbolic trigonometry
ACOSH 10-9
ALOG 10-10
ASINH 10-9
ATANH 10-9
COSH 10-9
setting Modes 1-11
insufficient memory R-19
insufficient statistics data R-19
integer rank
matrix 12-12
integer scaling 2-14, 2-16
integral
definite 10-7
indefinite 10-25
integration 10-7
interpreting
intermediate guesses 7-7
intersection
interactive 3-10
invalid
EXP 10-10
EXPM1 10-10
LNP1 10-10
SINH 10-9
TANH 10-9
hypothesis
alternative 9-3
inference tests 9-9
null 9-3
tests 9-3
dimension R-19
statistics data R-19
syntax R-19
I
i 10-9
inverse hyperbolic cosine 10-9
inverse hyperbolic functions 10-10
inverse hyperbolic sine 10-9
inverse hyperbolic tangent 10-9
inverting matrices 12-7
isect variable 15-32
implied multiplication 1-19
importing
graphics 14-6
notes 14-8
increasing display contrast 1-2
indefinite integral
using symbolic variables 10-25
independent values
K
keyboard
adding to table 2-19
editing keys 1-5
entry keys 1-5
inactive keys 1-7
list keys 13-2
math functions 1-7
menu keys 1-4
Notepad keys 14-8
shifted keystrokes 1-6
independent variable
defined for Tracing mode 15-32
inference
confidence intervals 9-16
hypothesis tests 9-9
One-Proportion Z-Interval 9-18
One-Sample Z-Interval 9-16
One-Sample Z-Test 9-9
Two-Proportion Z-Interval 9-19
Two-Proportion Z-Test 9-12
Two-Sample T-Interval 9-21
Two-Sample Z-Interval 9-17
infinite result R-19
L
labeling
axes 2-6
parts of a sketch 14-5
letters, typing 1-6
library, managing aplets in 16-6
linear fit 8-12
infrared
transmission of aplets between ma-
chines 16-5
initial guess 7-5
input forms
resetting default values 1-9
Index
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list
low battery 1-1
lowercase letters 1-6
arithmetic with 13-7
calculate sequence of elements 13-8
calculating product of 13-9
composed from differences 13-8
concatenating 13-8
counting elements in 13-9
creating 13-1, 13-3, 13-4, 13-5
deleting 13-6
deleting list items 13-3
displaying 13-4
displaying list elements 13-4
editing 13-3
M
mantissa 10-16
math functions
complex number 10-8
hyperbolic 10-10
in menu map R-15
keyboard 10-4
logical operators 10-20
menu 1-7
polynominal 10-12
probability 10-13
real-number 10-15
symbolic 10-19
finding statistical values in list ele-
ments 13-10
generate a series 13-8
generating series 13-8
trigonometry 10-21
math operations 1-18
enclosing arguments 1-20
in scientific notation 1-19
negative numbers in 1-18
matrices
list function syntax 13-7
list variables 13-1
returning position of element in 13-9
reversing order in 13-9
sending and receiving 13-6
sorting elements 13-9
adding rows 15-23
addition and subtraction 12-6
arguments 12-10
storing elements 13-1, 13-4, 13-5
storing one element 13-7
logarithm 10-4
arithmetic operations in 12-6
assembly from vectors 12-1
changing row position 15-24
column norm 12-10
comma 13-7
logarithmic
fit 8-12
functions 10-4
logical operators
AND 10-21
commands 12-10
equals (logical test) 10-20
greater than 10-20
greater than or equal to 10-20
IFTE 10-21
less than 10-20
less than or equal to 10-20
NOT 10-21
condition number 12-10
create identity 12-13
creating 12-3
creating in Home 12-5
deleting 12-4
deleting columns 15-23
deleting rows 15-23
determinant 12-10
not equal to 10-20
OR 10-21
display eigenvalues 12-11
displaying 12-5
displaying matrix elements 12-5
dividing by a square matrix 12-7
dot product 12-10
XOR 10-21
logistic fit 8-12
loop commands
BREAK 15-23
DO...UNTIL...END 15-22
FOR I= 15-23
editing 12-4
extracting a portion 15-24
finding the trace of a square matrix
12-13
inverting 12-7
matrix calculations 12-1
WHILE...REPEAT...END 15-22
loop functions
ITERATE 10-11
RECURSE 10-11
summation 10-11
I-6
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multiplying and dividing by scalar
12-6
maximum real number 1-20, 10-9
memory R-19
multiplying by vector 12-7
multiplying row by value and adding
result to second row 15-24
multiplying row number by value
15-24
clearing all R-5
organizing 11-9
out of R-20
saving 1-24, 16-1
viewing 11-1
negating elements 12-7
opening Matrix Editor 15-26
redimension 15-24
replacing portion of matrix or vector
15-24
sending or receiving 12-4
singular value decomposition 12-12
singular values 12-12
size 12-12
spectral norm 12-12
spectral radius 12-12
start Matrix Editor 15-23
storing elements 12-3, 12-5
storing matrix elements 12-5
swap column 15-24
swap row 15-24
menu lists
searching 1-8
minimum real number 10-9
Modes
angle measure 1-9
decimal mark 1-10
number format 1-10
multiple solutions
plotting to find 7-8
multiplication 10-4
implied 1-19
N
name conflict R-19
naming
transposing 12-13
variables 12-1
matrix functions 12-10
COLNORM 12-10
COND 12-10
programs 15-4
natural exponential 10-4, 10-10
natural log plus 1 10-10
natural logarithm 10-4
negation 10-5
negative numbers 1-18
no equations checked R-19
Normal Z-distribution, confidence inter-
vals 9-16
CROSS 12-10
DET 12-10
DOT 12-10
EIGENVAL 12-11
EIGENVV 12-11
IDENMAT 12-11
INVERSE 12-11
note
copying 14-8
LQ 12-11
LSQ 12-11
editing 14-2
importing 14-8
LU 12-11
MAKEMAT 12-11
QR 12-12
printing 15-25
viewing 14-1
writing 14-1
RANK 12-12
Notepad 14-1
ROWNORM 12-12
RREF 12-12
SCHUR 12-12
catalog keys 14-7
creating notes 14-6
writing in 14-6
nrng 2-5
SIZE 12-12
SPECNORM 12-12
SPECRAD 12-12
SVD 12-12
SVL 12-12
TRACE 12-13
nth root 10-6
null hypothesis 9-3
number format
engineering 1-10
fixed 1-10
fraction 1-10
TRN 12-13
Index
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in Solve aplet 7-5
scientific 1-10
Standard 1-10
comparing 2-5
connected points 8-16, 8-18
decimal scaling 2-14
defining the independent variable
15-35
numeric precision 11-9
Numeric view
adding X values 2-19
automatic 2-17
build your own table 2-19
display defining function for column
2-18
recalculating 2-19
setup 2-17, 2-19
drawing axes 2-6
expressions 3-3
goto function 1-29
grid points 2-6
in Solve aplet 7-8
index values 2-6
integer scaling 2-14
one-variable statistics 8-18
overlay plot 2-14
overlaying 2-16, 4-3
scaling 2-14
O
off
automatic 1-1
power 1-1
On/Cancel 1-1
scatter 8-15, 8-16
sequence 2-6
One-Proportion Z-Interval 9-18
One-Sample T-Interval 9-20
One-Sample T-Test 9-13
One-Sample Z-Interval 9-16
One-Sample Z-Test 9-9
order of precedence 1-20
overlaying plots 2-16, 4-3
setting up 2-5, 3-2
split-screen view 2-15
splitting 2-15
splitting into plot and close-up 2-14
splitting into plot and table 2-14
stairsteps 6-2
statistical data 8-15
statistics parameters 8-18
t values 2-5
P
π 10-9
tickmarks 2-6
paired columns 8-11
Parametric aplet 4-1
parametric variables
Axes 15-30
to capture current display 15-20
tracing 2-8
trigonometric scaling 2-14
plotting resolution
and tracing 2-8
plot-view variables
Area 15-30
Connect 15-30
Grid 15-31
in menu map R-10
Indep 15-32
Labels 15-33
Connect 15-30
FastRes 15-31
Function 15-30
Grid 15-31
Hmin/Hmax 15-31
Hwidth 15-32
Isect 15-32
Labels 15-33
Recenter 15-33
RNG 15-34
Root 15-33
S1mark-S5mark 15-33
StatPlot 15-34
Tracing 15-32
Ustep 15-34
Recenter 15-33
Ycross 15-36
parentheses
to close arguments 1-20
to specify order of operation 1-20
pause 15-28
permutations 10-13
pictures
attaching in Sketch view 14-3
plot
analyzing statistical data in 8-20
auto scale 2-14
box-and-whisker 8-16
cobweb 6-2
I-8
Index
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polar variables
Axes 15-30
running 15-7
sending and receiving 15-8
stopping 15-7
structured 15-1
Connect 15-30
Grid 15-31
in menu map R-11
Indep 15-32
prompt commands
beep 15-25
Labels 15-33
Recenter 15-33
Ycross 15-36
create choose box 15-25
create input form 15-27
display item 15-26
polynomial
display message box 15-28
halt program execution 15-28
insert line breaks 15-28
prevent screen display being updated
15-27
coefficients 10-12
evaluation 10-12
form 10-12
roots 10-12
set date and time 15-26
store keycode 15-27
Taylor 10-7
polynomial functions
POLYCOEF 10-12
POLYEVAL 10-12
POLYFORM 10-12
POLYROOT 10-12
position argument 15-20
power (x raised to y) 10-6
precedence 1-20
predicted values
statistical 8-21
print
Q
θ<∆εφαυλτ φοντ παρα>στεπ 2-5
θrng 2-5
quadratic
extremum 3-6
fit 8-12
function 3-4
quitting views 1-17
quotes
contents of display 15-25
name and contents of variable 15-25
object in history 15-25
variables 15-25
probability functions
! 10-13
in program names 15-4
R
random numbers 10-14
real number
maximum 10-9
minimum 10-9
real part 10-8
COMB 10-13
permutations 10-13
RANDOM 10-13
UTPC 10-14
UTPF 10-14
UTPN 10-14
real-number functions 10-15
% 10-17
%CHANGE 10-17
%TOTAL 10-17
CEILING 10-15
DEGtoRAD 10-15
FNROOT 10-15
HMSto 10-16
INT 10-16
MANT 10-16
MAX 10-16
MIN 10-16
UTPT 10-14
program
commands 15-5
copying 15-8
creating 15-4
debugging 15-7
deleting 15-8
delimiters 15-1
editing 15-5
naming 15-4
pausing 15-28
printing 15-25
MOD 10-17
RADtoDEG 10-17
ROUND 10-17
SIGN 10-18
Index
I-9
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TRUNCATE 10-18
XPON 10-18
recalculation for table 2-19
receive error R-20
receiving
S
S1mark-S5mark variables 15-33
scaling
automatic 2-14
decimal 2-9, 2-10, 2-14
integer 2-11, 2-14, 2-16
options 2-14
aplet 16-5
lists 13-6
matrices 12-4
programs 15-8
redrawing
table of numbers 2-18
reduced row echelon 12-12
regression
resetting 2-14
trigonometric 2-14
scatter plot 8-15, 8-16
connected 8-16, 8-18
SCHUR decomposition 12-12
scientific number format 1-10, 1-19
scrolling
analysis 8-17
fit models 8-12
formula 8-12
in Trace mode 2-8
searching
user-defined fit 8-12
regulatory information
Canada R-1
USA R-1
relative error
menu lists 1-8
speed searches 1-8
secant 10-21
sending
aplets 16-5
lists 13-6
statistical 8-17
resetting
programs 15-8
sequence
aplet 16-4
calculator R-4
If calculator does not turn on R-5
memory R-5
definition 2-2
sequence variables
Axes 15-30
Grid 15-31
in menu map R-12
Indep 15-32
Labels 15-33
Recenter 15-33
Ycross 15-36
result
copying to edit line 1-21
reusing 1-21
root
interactive 3-9
nth 10-6
variable 15-33
root-finding
setting
date 15-26
time 15-26
displaying 7-7
interactive 3-8
operations 3-9
variables 3-9
sign reversal 7-6
sine 10-4
inverse hyperbolic 10-9
singular value decomposition
matrix 12-12
running a program 15-7
singular values
matrix 12-12
I-10
Index
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sketches
creating 14-5
define one-variable sample 15-29
define two-variable data set’s depen-
dent column 15-29
define two-variable data set’s inde-
pendent column 15-29
defining a fit 8-11
creating a blank graphic 15-22
creating a set of 14-5
erasing a line 15-20
labeling 14-5
defining a regression model 8-11
deleting data 8-10
editing data 8-10
frequency 15-29
inserting data 8-11
plot type 8-18
plotting data 8-15
predicted values 8-21
regression curve (fit) models 8-11
saving data 8-10
opening view 14-3
sets 14-5
storing in graphics variable 14-5
slope
interactive 3-9
soft key labels 1-2
solve
error messages 7-7
initial guesses 7-5
interpreting intermediate guesses
7-7
sorting data 8-11
specifying angle setting 8-10
toggling between one-variable and
two-variable 8-11
interpreting results 7-6
plotting to find guesses 7-8
setting number format 7-5
solve variables
tracing plots 8-20
troubleshooting with plots 8-19
zooming in plots 8-20
statistics variables
Axes 15-30
Connect 15-30
FastRes 15-31
Grid 15-31
in menu map R-13
Indep 15-32
Labels 15-33
Recenter 15-33
Ycross 15-36
Axes 15-30
Connect 15-30
Grid 15-31
Hmin/Hmax 15-31
Hwidth 15-32
in menu map R-14
Indep 15-32
Labels 15-33
sorting 16-6
aplets in alphabetic order 16-6
aplets in chronological order 16-6
elements in a list 13-9
spectral norm 12-12
spectral radius 12-12
square root 10-5
Recenter 15-33
S1mark-S5mark 15-33
Ycross 15-36
step size of independent variable 15-35
storing
list elements 13-1, 13-4, 13-5, 13-7
matrix elements 12-3, 12-5
results of calculation 11-3
value 11-2
stack history
printing 15-25
stairsteps graph 6-2
standard number format 1-10
statistics
strings
literal in symbolic operations 10-20
structured programming 15-1
subtract 10-4
summation function 10-11
symbolic
analysis 8-1
analyzing plots 8-20
angle mode 8-10
calculate one-variable 15-29
calculate two-variable 15-29
computing 2VAR 8-11
data set variables 15-39
data structure 15-39
calculations in Function aplet 10-22
defining expressions 2-1
differentiation 10-23
Index
I-11
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displaying definitions 3-8
evaluating variables in view 2-3
setup view for statistics 8-10
symbolic functions
| (where) 10-20
ASEC 10-21
COT 10-21
CSC 10-21
SEC 10-21
sine, cosine, tangent 10-4
trng 2-5
equals 10-19
ISOLATE 10-19
troubleshooting R-1
LINEAR? 10-19
QUAD 10-19
QUOTE 10-20
truncating values to decimal places
10-18
tstep 2-5, 15-35
Two-Proportion Z-Interval 9-19
Two-Proportion Z-Test 9-12
Two-Sample T-Interval 9-21
Two-Sample T-test 9-14
Two-Sample Z-Interval 9-17
typing letters 1-6
Symbolic view
defining expressions 3-2
syntax 10-3
syntax errors 15-7
T
table
navigate around 3-7
numeric values 3-7
numeric view setup 2-17
tangent 10-4
inverse hyperbolic 10-9
Taylor polynomial 10-7
tickmarks for plotting 2-6
time 10-16
U
undefined
name R-20
result R-20
un-zoom 2-11
upper-tail chi-squared probability 10-14
upper-tail normal probability 10-14
upper-tail snedecor’s f 10-14
upper-tail student’s t-probability 10-14
user defined
setting 15-26
time, converting 10-16
times sign 1-19
tmax 15-35
regression fit 8-12
user prompts 15-25
tmin 15-35
too few arguments R-20
tracing
functions 2-8
more than one curve 2-8
not matching plot 2-8
plots 2-8
transmitting
lists 13-6
matrices 12-4
programs 15-8
transposing a matrix 12-13
trigonometric
functions 10-21
scaling 2-11, 2-14, 2-16
trigonometry
cosine 10-9
trigonometry functions
ACOT 10-21
ACSC 10-21
I-12
Index
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V
W
value
warning symbol 1-7
warranty R-2
go directly to 3-7
recall 11-3
storing 11-2
where command ( | ) 10-20
variables
X
xrng 2-5
aplet 11-1
categories 11-7
definition 11-1, 11-7, R-7
in equations 7-10
in Symbolic view 2-3
independent 15-35
local 11-1
Y
Ycross variable 15-36
yrng 2-5
previous result (Ans) 1-22
printing 15-25
Z
Z-Interval 9-16
zoom 2-18
root 15-33
root-finding 3-9
step size of independent 15-35
types 11-1, 11-7
use in calculations 11-4
VARS menu 11-4, 11-5
map R-8
axes 2-12
box 2-8
center 2-8
examples of 2-11
factors 2-13
in 2-9, 2-10
vectors
options 2-8, 3-7
options within a table 2-18
out 2-9, 2-10
column 12-1
cross product 12-10
definition of R-7
views 1-17
redrawing table of numbers options
2-18
configuration 1-17
definition of R-7
square 2-9, 2-10
un-zoom 2-11
within Numeric view 2-18
X-zoom 2-9, 2-10
Y-zoom 2-9, 2-10
Index
I-13
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