Sharp Calculator EL 506W User Manual

ENGLISH  
ALPHA : Appears when K (STAT VAR), O or R is pressed.  
FIX/SCI/ENG: Indicates the notation used to display a value.  
DEG/RAD/GRAD: Indicates angular units.  
(2sin30, etc.) I  
n
C
r
,
n
P
r
O ×, ÷ P +, – { AND } OR, XOR, XNOR  
q =, M+, M–, M, |DEG, |RAD, |GRAD, DATA, CD, rθ, xy  
and other calculation ending instructions  
If parentheses are used, parenthesized calculations have prec-  
edence over any other calculations.  
: Appears when matrix mode is selected.  
: Appears when list mode is selected.  
: Appears when statistics mode is selected.  
SCIENTIFIC CALCULATOR  
EL-506W  
EL-546W  
INITIAL SET UP  
MODEL  
M
?
: Indicates that a value is stored in the independent memory.  
Mode Selection  
:
Indicates that the calculator is waiting for a numerical  
value to be entered, such as during simulation calculation.  
OPERATION MANUAL  
m0: Normal mode (NORMAL)  
m1: Statistic mode (STAT)  
m2: Equation mode (EQN)  
m3: Complex number mode (CPLX)  
m4: Matrix mode (MAT)  
PRINTED IN CHINA / IMPRIMÉ EN CHINE / IMPRESO EN CHINA  
04HGK (TINSE0719EH01)  
: Appears when the calculator shows an angle as the result  
in the complex calculation mode.  
i
: Indicates an imaginary number is being displayed in the  
complex calculation mode.  
INTRODUCTION  
m5: List mode (LIST)  
SET UP menu  
BEFORE USING THE CALCULATOR  
Thank you for purchasing the SHARP Scientific Calculator Model  
EL-506W/546W.  
Key Notation Used in this Manual  
In this manual, key operations are described as follows:  
Press to display the SET UP menu.  
About the calculation examples (including some formulas and  
tables), refer to the reverse side of this English manual. Refer to  
the number on the right of each title in the manual for use.  
After reading this manual, store it in a convenient location for  
future reference.  
Note: Some of the models described in this manual may not be  
available in some countries.  
TAB  
D0RG F1SE  
A menu item can be selected by:  
• moving the flashing cursor by using  
To specify ex  
To specify ln :  
:
@e  
I
><, then pressing ® (= key), or  
To specify F : Kü  
• pressing the number key corresponding to the menu item number.  
If or  
view the previous/next menu screen.  
Functions that are printed in orange above the key require @ to  
be pressed first before the key. When you specify the memory,  
press K first. Numbers for input value are not shown as keys,  
but as ordinary numbers.  
is displayed on the screen, press [ or ] to  
Press ª to exit the SET UP menu.  
Operational Notes  
[Determination of the Angular Unit]  
The following three angular units (degrees, radians, and grads) can  
be specified.  
Do not carry the calculator around in your back pocket, as it  
may break when you sit down. The display is made of glass  
and is particularly fragile.  
Keep the calculator away from extreme heat such as on a car  
dashboard or near a heater, and avoid exposing it to exces-  
sively humid or dusty environments.  
Since this product is not waterproof, do not use it or store it  
where fluids, for example water, can splash onto it. Raindrops,  
water spray, juice, coffee, steam, perspiration, etc. will also  
cause malfunction.  
Clean with a soft, dry cloth. Do not use solvents or a wet cloth.  
Do not drop it or apply excessive force.  
Power On and Off  
Press ª to turn the calculator on, and @F to turn it off.  
DEG (°) : Press ”00.  
RAD (rad): Press ”01.  
GRAD (g) : Press ”02.  
Clearing the Entry and Memories  
Operation  
Entry  
M
A-F, X,Y  
ANS STAT VAR*2  
STAT*1  
matA-D*3  
L1-4*4  
[Selecting the Display Notation and Decimal Places]  
Four display notation systems are used to display calculation re-  
sults: Floating point; Fixed decimal point; Scientific notation; and  
Engineering notation.  
(Display) F1-F4  
ª
×
×
×
×
×
×
@c  
When the FIX, SCI, or ENG symbol is displayed, the number of decimal  
places (TAB) can be set to any value between 0 and 9. Displayed  
values will be reduced to the corresponding number of digits.  
Mode selection  
@∏00*5  
@∏10*6  
Never dispose of batteries in a fire.  
Keep batteries out of the reach of children.  
This product, including accessories, may change due to up-  
grading without prior notice.  
[Setting the Floating Point Numbers System in Scientific Notation]  
Two settings are used to display a floating point number: NORM1  
(default setting) and NORM2. A number is automatically displayed  
in scientific notation outside a preset range:  
RESET switch  
: Clear  
× : Retain  
1
*
*
*
*
*
*
Statistical data (entered data).  
x¯, sx, σx, n, Σx, Σx2, ¯y, sy, σy, Σy, Σy2, Σxy, r, a, b, c.  
Matrix memories (matA, matB, matC and matD)  
List memories (L1, L2, L3 and L4)  
2
3
4
5
6
NOTICE  
NORM1: 0.000000001 x9999999999  
NORM2: 0.01 x9999999999  
SHARP strongly recommends that separate permanent  
written records be kept of all important data. Data may be  
lost or altered in virtually any electronic memory product  
under certain circumstances. Therefore, SHARP assumes  
no responsibility for data lost or otherwise rendered unusable  
whether as a result of improper use, repairs, defects, battery  
replacement, use after the specified battery life has expired,  
or any other cause.  
All variables are cleared.  
This key combination functions the same as the RESET switch.  
SCIENTIFIC CALCULATIONS  
Press m0 to select the normal mode.  
[Memory clear key]  
MEM RESET  
In each example, press ª to clear the display. If the FIX, SCI,  
or ENG indicator is displayed, clear the indicator by selecting  
‘NORM1’ from the SET UP menu.  
Press @∏ to display the menu.  
F1-F4, STAT VAR, matA-D, L1-4), press 00 0 or 0  
1
To clear all variables (M, A-F, X, Y, ANS,  
SHARP will not be liable nor responsible for any incidental or  
consequential economic or property damage caused by  
misuse and/or malfunctions of this product and its peripherals,  
unless such liability is acknowledged by law.  
®.  
Arithmetic Operations  
To RESET the calculator, press 10 or .  
The RESET operation will erase all data stored in memory, and  
restore the calculator’s default setting.  
The closing parenthesis ) just before = or ; may be  
omitted.  
Constant Calculations  
Press the RESET switch (on the back), with the tip of a ball-  
point pen or similar object, only in the following cases. Do not  
use an object with a breakable or sharp tip. Note that pressing  
the RESET switch erases all data stored in memory.  
Entering and Correcting the Equation  
[Cursor keys]  
In constant calculations, the addend becomes a constant. Sub-  
traction and division are performed in the same manner. For  
multiplication, the multiplicand becomes a constant.  
Press < or > to move the cursor. You can also return to  
the equation after getting an answer by pressing > (<).  
See the next section for using the [ and ] keys.  
See ‘SET UP menu’ for cursor use in the SET UP menu.  
When using for the first time  
After replacing the batteries  
To clear all memory contents  
When an abnormal condition occurs and all keys are inoperative.  
In the constants calculations, constants will be displayed as K.  
Functions  
Refer to the calculation examples of each function.  
Before starting calculations, specify the angular unit.  
[Insert mode and Overwrite mode in the Equation display]  
If service should be required on this calculator, use only a SHARP  
servicing dealer, SHARP approved service facility, or SHARP  
repair service where available.  
Pressing @‘ switches between the two editing modes:  
insert mode (default); and overwrite mode. A triangular cursor  
indicates that an entry will be inserted at the cursor, while the  
rectangular cursor indicates to overwrite preexisting data as you  
make entries.  
Differential/Integral Functions  
Differential and integral calculations are only available in the nor-  
mal mode. For calculation conditions such as the x value in differ-  
ential calculation or the initial point in integral calculation, only  
numerical values can be entered and equations such as 22 cannot  
be specified. It is possible to reuse the same equation over and  
over again and to recalculate by only changing the conditions with-  
out re-entering the equation.  
Hard Case  
DISPLAY  
To insert a number in the insert mode, move the cursor to the  
place immediately after where you wish to insert, then make a  
desired entry. In the overwrite mode, data under the cursor will  
be overwritten by the number you enter.  
The mode set will be retained until the next RESET operation.  
Performing a calculation will clear the value in the X memory.  
When performing a differential calculation, enter the formula first and  
then enter the x value in differential calculation and the minute interval  
[Deletion key]  
To delete a number/function, move the cursor to the number/  
function you wish to delete, then press d. If the cursor is  
located at the right end of an equation, the d key will function  
as a back space key.  
(dx). If a numerical value is not specified for minute interval,  
x0 will be  
x
×10–5 and =0 will be 10–5 from the value of the numeric derivative.  
x
Symbol  
Equation→  
Display  
When performing an integral calculation, enter the formula first  
and then enter a range of integral (a, b) and subintervals (n). If a  
numerical value is not specified for subintervals, calculation will  
be performed using n=100.  
Multi-line Playback Function  
Previous equations may be recalled in the normal mode. Equations  
also include calculation ending instructions such as “=” and a maxi-  
mum of 142 characters can be stored in memory. When the memory  
is full, stored equations are deleted in the order of the oldest first.  
Pressing [ will display the previous equation. Further pressing  
[ will display preceding equations (after returning to the previ-  
ous equation, press ] to view equations in order). In addition,  
@[ can be used to jump to the oldest equation.  
Exponent  
Mantissa  
Since differential and integral calculations are performed based on  
the following equations, correct results may not be obtained, in  
certain rare cases, when performing special calculations that con-  
tain discontinuous points.  
During actual use, not all symbols are displayed at the same time.  
Certain inactive symbols may appear visible when viewed from  
a far off angle.  
Only the symbols required for the usage under instruction are  
shown in the display and calculation examples of this manual.  
Integral calculation (Simpson’s rule):  
b a  
N
N=2n  
axb  
1
3
——  
h=  
S=—h{ƒ(a)+4{ƒ(a+h)+ƒ(a+3h)+······+ƒ(a+(N–1)h)}  
:
Appears when the entire equation cannot be displayed.  
Press to see the remaining (hidden) section.  
/
The multi-line memory is cleared by the following operations:  
@c, mode change, RESET, N-base conversion and memory  
clear (@∏).  
<
/
>
+2{ƒ(a+2h)+ƒ(a+4h)+······+ƒ(a+(N–2)h)}+f(b)}  
xy/rθ : Indicates the mode of expression of results in the com-  
dx  
2
dx  
2
plex calculation mode.  
f(x+–)–f(x–)  
Differential calculation:  
f’(x)=————————  
dx  
Priority Levels in Calculation  
Operations are performed according to the following priority:  
: Indicates that data can be visible above/below the  
screen. Press [/] to scroll up/down the view.  
[When performing integral calculations]  
Q Fractions (1 4, etc.) W , engineering prefixes E Functions  
2ndF : Appears when @ is pressed.  
l
Integral calculations, depending on the integrands and subintervals  
included, require longer calculation time. During calculation, “Calculat-  
ing!” will be displayed. To cancel calculation, press ª. Note that  
there will be greater integral errors when there are large fluctuations in  
x
preceded by their argument (x-1, x2, n!, etc.) R Yx,  
¿
T Implied  
HYP  
: Indicates that h has been pressed and the hyper-  
bolic functions are enabled. If @H are pressed,  
the symbols “2ndF HYP” appear, indicating that inverse  
hyperbolic functions are enabled.  
multiplication of a memory value (2Y, etc.) Y Functions followed by  
their argument (sin, cos, etc.) U Implied multiplication of a function  
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the integral values during  
minute shifting of the inte-  
gral range and for periodic  
functions, etc., where posi-  
tive and negative integral  
values exist depending on  
the interval.  
For the former case, divide  
integral intervals as small  
as possible. For the latter  
A ï, B , C ó, D ò, E ô, F ö  
In the binary, pental, octal, and hexadecimal systems, fractional  
parts cannot be entered. When a decimal number having a frac-  
tional part is converted into a binary, pental, octal, or hexadeci-  
mal number, the fractional part will be truncated. Likewise, when  
the result of a binary, pental, octal, or hexadecimal calculation  
includes a fractional part, the fractional part will be truncated. In  
the binary, pental, octal, and hexadecimal systems, negative num-  
bers are displayed as a complement.  
y
y
x0  
x2  
b
a
x
x
a
b
x0 x1  
x2  
x3  
x1  
x3  
Time, Decimal and Sexagesimal Calculations  
case, separate the positive and negative values. Following these  
tips will allow results of calculations with greater accuracy and will  
also shorten the calculation time.  
Conversion between decimal and sexagesimal numbers can be  
performed, and, while using sexagesimal numbers, conversion to  
seconds and minutes notation. The four basic arithmetic opera-  
tions and memory calculations can be performed using the  
sexagesimal system. Notation for sexagesimal is as follows:  
Random Function  
The Random function has four settings for use in the normal, statis-  
tics, matrix and list modes. (This function cannot be selected while  
using the N-Base function.) To generate further random numbers in  
succession, press ®. Press ª to exit.  
degree  
second  
The generated pseudo-random number series is stored in memory  
Y. Each random number is based on a number series.  
minute  
[Random Numbers]  
Coordinate Conversions  
A pseudo-random number, with three significant digits from 0 up to  
0.999, can be generated by pressing @`0®.  
Before performing a calculation, select the angular unit.  
Y
Y
P (x,y)  
P (r,θ)  
r
[Random Dice]  
y
To simulate a die-rolling, a random integer between 1 and 6 can be  
generated by pressing @`1®.  
θ
X
X
0
0
x
[Random Coin]  
Rectangular coord.  
Polar coord.  
To simulate a coin flip, 0 (head) or 1 (tail) can be randomly gener-  
ated by pressing @`2®.  
The calculation result is automatically stored in memories X  
and Y.  
[Random Integer]  
Value of r or x: X memory  
Value of θ or y: Y memory  
An integer between 0 and 99 can be generated randomly by press-  
ing @`3®.  
Calculations Using Physical Constants  
See the quick reference card and the English manual reverse side.  
A constant is recalled by pressing ß followed by the number  
of the physical constant designated by a 2-digit number.  
The recalled constant appears in the display mode selected with  
the designated number of decimal places.  
Angular Unit Conversions  
Each time @g are pressed, the angular unit changes in sequence.  
Memory Calculations  
Mode  
ANS  
M, F1-F4  
A-F, X,Y  
Physical constants can be recalled in the normal mode (when not  
set to binary, pental, octal, or hexadecimal), statistics mode, equa-  
tion mode, matrix mode and list mode.  
Note: Physical constants and metric conversions are based either  
on the 2002 CODATA recommended values or 1995 Edi-  
tion of the “Guide for the Use of the International System of  
Units (SI)” released by NIST (National Institute of Stand-  
ards and Technology) or on ISO specifications.  
NORMAL  
STAT  
EQN  
CPLX  
MAT  
×
×
×
×
×
×
×
×
LIST  
: Available  
× : Unavailable  
[Temporary memories (A-F, X and Y)]  
No.  
Constant  
No.  
Constant  
Press O and a variable key to store a value in memory.  
01 Speed of light in vacuum  
02 Newtonian constant of gravitation  
03 Standard acceleration of gravity  
04 Electron mass  
28 Avogadro constant  
Press R and a variable key to recall a value from the memory.  
29 Molar volume of ideal gas  
(273.15 K, 101.325 kPa)  
30 Molar gas constant  
31 Faraday constant  
To place a variable in an equation, press K and a variable key.  
[Independent memory (M)]  
In addition to all the features of temporary memories, a value can  
be added to or subtracted from an existing memory value.  
Press ªOM to clear the independent memory (M).  
05 Proton mass  
06 Neutron mass  
07 Muon mass  
08 Atomic mass unit-kilogram  
relationship  
09 Elementary charge  
10 Planck constant  
32 Von Klitzing constant  
33 Electron charge to mass quotient  
34 Quantum of circulation  
35 Proton gyromagnetic ratio  
36 Josephson constant  
37 Electron volt  
[Last answer memory (ANS)]  
The calculation result obtained by pressing = or any other  
calculation ending instruction is automatically stored in the last  
answer memory. A Matrix/List format result is not stored.  
11 Boltzmann constant  
12 Magnetic constant  
13 Electric constant  
38 Celsius Temperature  
39 Astronomical unit  
40 Parsec  
[Formula memories (F1-F4)]  
Formulas up to 256 characters in total can be stored in F1 - F4.  
(Functions such as sin, etc., will be counted as one letter.) Storing  
a new equation in each memory will automatically replace the  
existing equation.  
14 Classical electron radius  
15 Fine-structure constant  
16 Bohr radius  
41 Molar mass of carbon-12  
42 Planck constant over 2 pi  
43 Hartree energy  
17 Rydberg constant  
18 Magnetic flux quantum  
19 Bohr magneton  
44 Conductance quantum  
45 Inverse fine-structure constant  
46 Proton-electron mass ratio  
47 Molar mass constant  
48 Neutron Compton wavelength  
49 First radiation constant  
50 Second radiation constant  
51 Characteristic impedance of  
vacuum  
Note:  
Calculation results from the functions indicated below are auto-  
matically stored in memories X or Y replacing existing values.  
20 Electron magnetic moment  
21 Nuclear magneton  
22 Proton magnetic moment  
23 Neutron magnetic moment  
24 Muon magnetic moment  
25 Compton wavelength  
26 Proton Compton wavelength  
27 Stefan-Boltzmann constant  
Random function .......... Y memory  
rθ, xy ........................ X memory (r or x), Y memory (θ or y)  
Use of R or K will recall the value stored in memory using  
up to 14 digits.  
52 Standard atmosphere  
Chain Calculations  
The previous calculation result can be used in the subsequent  
calculation. However, it cannot be recalled after entering multiple  
instructions or when the calculation result is in Matrix/List format.  
When using postfix functions (¿ , sin, etc.), a chain calculation is  
possible even if the previous calculation result is cleared by the  
use of the ª key.  
Metric Conversions  
See the quick reference card and the English manual reverse side.  
Unit conversions can be performed in the normal mode (when not  
set to binary, pental, octal, or hexadecimal), statistics mode, equa-  
tion mode, matrix mode and list mode.  
Fraction Calculations  
No.  
1
2
Remarks  
: inch  
: centimeter  
: foot  
No.  
23 fl oz(US): fluid ounce(US)  
24 ml : milliliter  
25 fl oz(UK): fluid ounce(UK)  
Remarks  
in  
cm  
ft  
Arithmetic operations and memory calculations can be performed  
using fractions, and conversion between a decimal number and a  
fraction.  
3
4
5
6
7
8
9
m
yd  
m
mile  
km  
: meter  
: yard  
: meter  
: mile  
26 ml  
27  
28 cal  
29  
30 cal15  
31  
: milliliter  
: Joule  
: calorie  
: Joule  
: Calorie (15n°C)  
: Joule  
If the number of digits to be displayed is greater than 10, the  
number is converted to and displayed as a decimal number.  
J
J
Binary, Pental, Octal, Decimal, and Hexadecimal  
Operations (N-Base)  
: kilometer  
n mile : nautical mile  
J
Conversions can be performed between N-base numbers. The four  
basic arithmetic operations, calculations with parentheses and  
memory calculations can also be performed, along with the logical  
operations AND, OR, NOT, NEG, XOR and XNOR on binary, pental,  
octal and hexadecimal numbers.  
10  
m
: meter  
: acre  
: square meter  
: ounce  
: gram  
32 calIT  
33 hp  
: I.T. calorie  
: horsepower  
: watt  
: French horsepower  
: watt  
11 acre  
12 m2  
13 oz  
34  
W
35 ps  
14  
g
36  
37  
W
15 lb  
16 kg  
17 °F  
18 °C  
19 gal (US) : gallon (US)  
20 : liter  
21 gal (UK) : gallon (UK)  
: pound  
Conversion to each system is performed by the following keys:  
: kilogram  
: Degree Fahrenheit  
: Degree Celsius  
38 Pa  
39 atm  
40 Pa  
41 (1 mmHg = 1 Torr)  
42 Pa  
43  
: Pascal  
: atmosphere  
: Pascal  
(“ ” appears.), (“ ” appears.), @î  
(“ ” appears.), (“ ” appears.), (“ ”, “ ”, “  
and “ ” disappear.)  
Note: The hexadecimal numbers A – F are entered by pressing  
l
: Pascal  
ß, , L, ÷, l, and I, and displayed  
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22  
l
: liter  
44  
J
: Joule  
as follows:  
If the determinant D = 0, an error occurs.  
Calculations Using Engineering Prefixes  
Calculation can be executed in the normal mode (excluding N-  
base) using the following 9 types of prefixes.  
Exponential regression, Logarithmic regression,  
If the absolute value of an intermediate result or calculation result  
Power regression, and Inverse regression calculation  
Statistics of Q and W. In addition, estimate of y for a given x and  
estimate of x for a given y. (Since the calculator converts each  
formula into a linear regression formula before actual calculation  
takes place, it obtains all statistics, except coefficients a and b,  
from converted data rather than entered data.)  
is 1 × 10100 or more, an error occurs.  
Coefficients ( a1, etc.) can be entered using ordinary arithmetic  
operations.  
Prefix  
Operation  
∑10  
∑11  
∑12  
∑13  
∑14  
∑15  
∑16  
∑17  
∑18  
Unit  
103  
k
(kilo)  
To clear the entered coefficients, press @c.  
Pressing ® when the determinant D is in the display recalls  
the coefficients. Each time ® is pressed, a coefficient is  
displayed in the order of input, allowing the entered coefficients  
to be verified (by pressing , coefficients are displayed  
in reverse order.) To correct a particular coefficient being dis-  
played, enter the correct value and then press ®.  
M
G
T
m
µ
n
p
f
(Mega)  
(Giga)  
(Tera)  
(milli)  
(micro)  
(nano)  
(pico)  
106  
109  
1012  
10–3  
10–6  
10–9  
10–12  
10–15  
Quadratic regression calculation  
Statistics of Q and W and coefficients a, b, c in the quadratic  
regression formula (y = a + bx + cx2). (For quadratic regression  
calculations, no correlation coefficient (r) can be obtained.) When  
there are two x´ values, press @≠.  
QUADRATIC AND CUBIC EQUATION SOLVERS  
(femto)  
When performing calculations using a, b and c, only one numeric  
value can be held.  
Quadratic (ax2 + bx + c = 0) or cubic (ax3 + bx2 + cx + d = 0) equation  
may be solved using this function.  
Modify Function  
¯x  
Mean of samples (x data)  
Q Quadratic equation solver: m22  
Calculation results are internally obtained in scientific notation  
with up to 14 digits for the mantissa. However, since calculation  
results are displayed in the form designated by the display nota-  
tion and the number of decimal places indicated, the internal  
calculation result may differ from that shown in the display. By  
using the modify function, the internal value is converted to match  
that of the display, so that the displayed value can be used  
without change in subsequent operations.  
sx  
σx  
n
Sample standard deviation (x data)  
Population standard deviation (x data)  
Number of samples  
W Cubic equation solver:  
m23  
Press ® after entering each coefficient.  
Q
The result will be displayed by pressing ® after entering all  
coefficients. When there are more than 2 results, the next solu-  
tion will be displayed.  
Σx  
Sum of samples (x data)  
Sum of squares of samples (x data)  
Mean of samples (y data)  
Σx2  
When the result is an imaginary number, “xy” symbol will appear.  
The display can be switched between imaginary and real parts  
by pressing @≠.  
¯y  
sy  
σy  
Σy  
Σy2  
Σxy  
r
Sample standard deviation (y data)  
Population standard deviation (y data)  
Sum of samples (y data)  
Sum of squares of samples (y data)  
Sum of products of samples (x, y)  
Correlation coefficient  
Solver Function  
The x value can be found that reduces an entered equation to “0”.  
The results obtained by this function may include a margin of error.  
W
This function uses Newton's method to obtain an approxima-  
tion. Depending on the function (e.g. periodic) or start value, an  
error may occur (Error 2) due to there being no convergence to  
the solution for the equation.  
COMPLEX NUMBER CALCULATIONS  
To carry out addition, subtraction, multiplication, and division using  
complex numbers, press m3 to select the complex number  
mode.  
Results of complex number calculations are expressed in two modes:  
Q @}: Rectangular coordinate mode (xy appears.)  
W @{: Polar coordinate mode (rθ appears.)  
Complex number entry  
Q Rectangular coordinates  
x-coordinate + y-coordinate Ü  
or x-coordinate + Ü y-coordinate  
W Polar coordinates  
a
b
c
Coefficient of regression equation  
Coefficient of regression equation  
Coefficient of quadratic regression equation  
The value obtained by this function may include a margin of  
error. If it is larger than acceptable, recalculate the solution  
after changing ‘Start’ and dx values.  
Change the ‘Start’ value (e.g. to a negative value) or dx value  
(e.g. to a smaller value) if:  
Use K and R to perform a STAT variable calculation.  
Data Entry and Correction  
no solution can be found (Error 2).  
more than two solutions appear to be possible (e.g. a cubic  
equation).  
Entered data are kept in memory until @c or mode selec-  
tion. Before entering new data, clear the memory contents.  
[Data Entry]  
to improve the arithmetic precision.  
Single-variable data  
Data k  
The calculation result is automatically stored in the X memory.  
r Ö θ  
r: absolute value  
θ: argument  
[Performing Solver function]  
Q Press m0.  
Data  
&
frequency  
k
(To enter multiples of the same data)  
On selecting another mode, the imaginary part of any complex  
number stored in the independent memory (M) will be cleared.  
A complex number expressed in rectangular coordinates with the  
y-value equal to zero, or expressed in polar coordinates with the  
angle equal to zero, is treated as a real number.  
Two-variable data  
W Input a formula with an x variable.  
E Press ∑0.  
Data x & Data y k  
Data x & Data y & frequency k (To enter multiples  
R Input ‘Start’ value and press ®. The default value is “0”.  
T Input dx value (minute interval).  
Y Press ®.  
of the same data x and y.)  
Up to 100 data items can be entered. With the single-variable  
data, a data item without frequency assignment is counted as  
one data item, while an item assigned with frequency is stored as  
a set of two data items. With the two-variable data, a set of data  
items without frequency assignment is counted as two data items,  
while a set of items assigned with frequency is stored as a set of  
three data items.  
Press ∑0 to return the complex conjugate of the speci-  
fied complex number.  
SIMULATION CALCULATION (ALGB)  
MATRIX CALCULATIONS  
If you have to find a value consecutively using the same formula,  
such as plotting a curve line for 2x2 + 1, or finding the variable for  
2x + 2y =14, once you enter the equation, all you have to do is to  
specify the value for the variable in the formula.  
Usable variables: A-F, M, X and Y  
Unusable functions: Random function  
This function enables the saving of up to 4 matrices (4 rows x 4  
columns) for calculations. Press m4 to enter the matrix mode.  
Matrix data must be entered prior to making calculations. Press-  
[Data Correction]  
ing [/] will display the matrix edit buffer along with  
.
Correction prior to pressing k immediately after a data entry:  
Enter the value of each item (‘ROW’, ‘COLUMN’, and then each  
element, e.g. ‘MAT1,1’) and press k after each. After enter-  
ing all items, press ª, then press °2 and specify  
matA-D to save the data.  
Delete incorrect data with ª, then enter the correct data.  
Simulation calculations can only be executed in the normal  
mode.  
Correction after pressing k:  
Use [] to display the data previously entered.  
Press ] to display data items in ascending (oldest first)  
order. To reverse the display order to descending (latest first),  
press the [ key.  
Calculation ending instructions other than= cannot be used.  
To edit data saved in matA-D, press °1 and specify  
matA-D to recall the data to the matrix edit buffer. After editing,  
press ª, then press °2 and specify matA-D to save  
the data.  
Performing Calculations  
Q Press m0.  
Each item is displayed with ‘Xn=’, ‘Yn=’, or ‘Nn=’ (n is the sequen-  
tial number of the data set).  
W Input a formula with at least one variable.  
E Press @≤.  
Before performing calculations, press ª to close the matrix  
edit buffer.  
Display the data item to modify, input the correct value, then  
press k. Using &, you can correct the values of the data  
set all at once.  
R Variable input screen will appear. Input the value of the flashing  
variable, then press ® to confirm. The calculation result will  
be displayed after entering the value for all used variables.  
When results of calculations are in the matrix format, the matrix  
edit buffer with those results will be displayed. (At this time, you  
cannot return to the equation.) To save the result in matA-D,  
press ª, then press °2 and specify matA-D.  
Since there is only one matrix edit buffer, the previous data will  
be overwritten by the new calculation.  
In addition to the 4 arithmetic functions (excluding divisions be-  
tween matrices), x3, x2, and x–1, the following commands are  
available:  
To delete a data set, display an item of the data set to delete,  
then press @J. The data set will be deleted.  
To add a new data set, press ª and input the values, then  
press k.  
Only numerical values are allowed as variables. Input of  
formulas is not permitted.  
Upon completing the calculation, press @≤ to per-  
form calculations using the same formula.  
Variables and numerical values stored in the memories will  
be displayed in the variable input screen. To change a  
numerical value, input the new value and press ®.  
Performing simulation calculation will cause memory loca-  
tions to be overwritten with new values.  
Statistical Calculation Formulas  
Type  
Linear  
Exponential  
Logarithmic  
Power  
Regression formula  
dim(matrix name,  
row,column)  
Returns a matrix with dimensions changed as  
specified.  
y = a + bx  
y = a ebx  
y = a + b • ln x  
y = a xb  
fill(value,row,column) Fills each element with a specified value.  
cumul matrix name  
Returns the cumulative matrix.  
STATISTICAL CALCULATIONS  
aug(matrix name,  
matrix name)  
Appends the second matrix to the first matrix as new  
columns. The first and second matrices must have  
the same number of rows.  
Press m1 to select the statistics mode. The seven statisti-  
cal calculations listed below can be performed. After selecting the  
statistics mode, select the desired sub-mode by pressing the  
number key corresponding to your choice.  
1
y = a + b —  
x
Inverse  
Quadratic  
y = a + bx + cx2  
identity value  
Returns the identity matrix with specified value of  
rows and columns.  
In the statistical calculation formulas, an error will occur when:  
To change statistical sub-mode, reselect statistics mode (press  
rnd_mat(row,column) Returns a random matrix with specified values of  
The absolute value of the intermediate result or calculation result  
m1), then select the required sub-mode.  
rows and columns.  
is equal to or greater than 1 × 10100  
.
0 (SD)  
: Single-variable statistics  
det matrix name  
Returns the determinant of a square matrix.  
The denominator is zero.  
1 (LINE) : Linear regression calculation  
2 (QUAD) : Quadratic regression calculation  
3 (EXP) : Exponential regression calculation  
4 (LOG) : Logarithmic regression calculation  
5 (PWR) : Power regression calculation  
trans matrix name  
Returns the matrix with the columns transposed to  
rows and the rows transposed to columns.  
An attempt is made to take the square root of a negative number.  
No solution exists in the quadratic regression calculation.  
matlist  
(∑5)  
Creates lists with elements from the left column of each  
matrix. (matAL1, matBL2, matCL3, matDL4)  
Mode changes from matrix mode to list mode.  
Normal Probability Calculations  
P(t), Q(t), and R(t) will always take positive values, even when  
t<0, because these functions follow the same principle used  
when solving for an area.  
6 (INV)  
: Inverse regression calculation  
matAlist  
(∑6)  
Creates lists with elements from each column of the  
matrix. (matAL1, L2, L3, L4)  
Mode changes from matrix mode to list mode.  
The following statistics can be obtained for each statistical calcu-  
lation (refer to the table below):  
Values for P(t), Q(t), and R(t) are given to six decimal places.  
Single-variable statistical calculation  
SIMULTANEOUS LINEAR EQUATIONS  
LIST CALCULATIONS  
Statistics of Q and value of the normal probability function  
Simultaneous linear equation with two unknowns (2-VLE) or with  
three unknowns (3-VLE) may be solved using this function.  
Q 2-VLE: m20  
This function enables the saving of up to 4 lists of 16 elements for  
Linear regression calculation  
Statistics of Q and W and, in addition, estimate of y for a given  
x (estimate y´) and estimate of x for a given y (estimate x´)  
calculations. Press m5 to enter the list mode.  
List data must be entered prior to making calculations. Pressing  
W 3-VLE: m21  
[/] will display the list edit buffer along with  
. Enter  
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the value of each item (‘SIZE’, and then each element, e.g.  
‘LIST1’) and press k after each. After entering all items,  
press ª, then press °2 and specify L1-4 to save the  
data.  
To edit data saved in L1-4, press °1 and specify L1-4 to  
recall the data to the list edit buffer. After editing, press ª,  
then press °2 and specify L1-4 to save the data.  
Before performing calculations, press ª to close the list edit  
buffer.  
Calculation ranges  
10–99 9.999999999×1099 and 0.  
~
If the absolute value of an entry or a final or intermediate result of  
a calculation is less than 10–99, the value is considered to be 0 in  
calculations and in the display.  
BATTERY REPLACEMENT  
Notes on Battery Replacement  
Improper handling of batteries can cause electrolyte leakage or  
explosion. Be sure to observe the following handling rules:  
When results of calculations are in the list format, the list edit  
buffer with those results will be displayed. (At this time, you  
cannot return to the equation.) To save the result in L1-4, press  
ª, then press °2 and specify L1-4.  
Replace both batteries at the same time.  
Do not mix new and old batteries.  
Make sure the new batteries are the correct type.  
When installing, orient each battery properly as indicated in the  
calculator.  
Batteries are factory-installed before shipment, and may be  
exhausted before they reach the service life stated in the speci-  
fications.  
Since there is only one list edit buffer, the previous data will be  
overwritten by the new calculation.  
In addition to the 4 arithmetic functions, x3, x2, and x–1, the follow-  
ing commands are available:  
sortA list name  
sortD list name  
dim(list name,size)  
fill(value,size)  
Sorts list in ascending order.  
Sorts list in descending order.  
Notes on erasure of memory contents  
Returns a list with size changed as specified.  
Enter the specified value for all items.  
Sequentially cumulates each item in the list.  
When the battery is replaced, the memory contents are erased.  
Erasure can also occur if the calculator is defective or when it is  
repaired. Make a note of all important memory contents in case  
accidental erasure occurs.  
cumul list name  
df_list list name  
Returns a new list using the difference between  
adjacent items in the list.  
When to Replace the Batteries  
If the display has poor contrast or nothing appears on the display  
even when ª is pressed in dim lighting, it is time to replace  
the batteries.  
aug(list name,list name)  
min list name  
Returns a list appending the specified lists.  
Returns the minimum value in the list.  
Returns the maximum value in the list.  
Returns the mean value of items in the list.  
Returns the median value of items in the list.  
Returns the sum of items in the list.  
max list name  
mean list name  
med list name  
sum list name  
prod list name  
stdDv list name  
vari list name  
Cautions  
Fluid from a leaking battery accidentally entering an eye could  
result in serious injury. Should this occur, wash with clean  
water and immediately consult a doctor.  
Returns the multiplication of items in the list.  
Returns the standard deviation of the list.  
Returns the variance of the list.  
Should fluid from a leaking battery come in contact with your  
skin or clothes, immediately wash with clean water.  
If the product is not to be used for some time, to avoid damage  
to the unit from leaking batteries, remove them and store in a  
safe place.  
o_prod(list name,list name) Returns the outer product of 2 lists (vectors).  
i_prod(list name,list name) Returns the inner product of 2 lists (vectors).  
abs list name  
Returns the absolute value of the list (vector).  
Creates matrices with left column data from  
Do not leave exhausted batteries inside the product.  
Do not fit partially used batteries, and be sure not to mix  
batteries of different types.  
listmat  
(∑5)  
each list. (L1matA, L2matB, L3matC,  
L4matD)  
Mode changes from list mode to matrix mode.  
Keep batteries out of the reach of children.  
Exhausted batteries left in the calculator may leak and damage  
the calculator.  
listmatA  
(∑6)  
Creates a matrix with column data from each  
list. (L1, L2, L3, L4matA)  
Mode changes from list mode to matrix mode.  
Explosion risk may be caused by incorrect handling.  
Do not throw batteries into a fire as they may explode.  
Replacement Procedure  
ERROR AND CALCULATION RANGES  
1. Turn the power off by pressing @F.  
Errors  
2. Remove the two screws. (Fig. 1)  
An error will occur if an operation exceeds the calculation ranges,  
or if a mathematically illegal operation is attempted. When an error  
occurs, pressing < (or >) automatically moves the cursor  
back to the place in the equation where the error occurred. Edit the  
equation or press ª to clear the equation.  
3. Slide the battery cover slightly and lift it to remove.  
4. Remove the used batteries by prying them out with a ball-point  
pen or other similar pointed device. (Fig. 2)  
5. Install two new batteries. Make sure the “+” side is facing up.  
6. Replace the cover and screws.  
7. Press the RESET switch (on the back).  
Error Codes and Error Types  
Syntax error (Error 1):  
An attempt was made to perform an invalid operation.  
Make sure that the display appears as shown below. If the  
display does not appear as shown, remove the batteries, rein-  
stall them and check the display once again.  
Ex. 2 @{  
(Fig. 1)  
(Fig. 2)  
Calculation error (Error 2):  
The absolute value of an intermediate or final calculation result equals  
or exceeds 10100  
.
An attempt was made to divide by 0 (or an intermediate calculation  
resulted in zero).  
The calculation ranges were exceeded while performing calculations.  
Depth error (Error 3):  
Automatic Power Off Function  
This calculator will turn itself off to save battery power if no key is  
pressed for approximately 10 minutes.  
The available number of buffers was exceeded. (There are 10 buffers*  
for numeric values and 24 buffers for calculation instructions in the  
normal mode).  
*5 buffers in other modes, and 1 buffer for Matrix/List data.  
Data items exceeded 100 in the statistics mode.  
SPECIFICATIONS  
Equation too long (Error 4):  
The equation exceeded its maximum input buffer (142 characters).  
An equation must be shorter than 142 characters.  
Calculations:  
Scientific calculations, complex number  
calculations, equation solvers, statistical  
calculations, etc.  
Equation recall error (Error 5):  
Internal calculations: Mantissas of up to 14 digits  
The stored equation contains a function not available in the mode  
used to recall the equation. For example, if a numerical value with  
numbers other than 0 and 1 is stored as a decimal, etc., it cannot be  
recalled when the calculator is set to binary.  
Pending operations:  
24 calculations 10 numeric values in the  
normal mode (5 numeric values in other  
modes, and 1 numeric value for Matrix/  
List data.)  
Memory over error (Error 6):  
Power source:  
Built-in solar cells  
Equation exceeded the formula memory buffer (256 characters in total  
in F1 - F4).  
3 V (DC):  
Backup batteries  
Invalid error (Error 7):  
Matrix/list definition error or entering an invalid value.  
(Alkaline batteries (LR44 or equivalent) × 2)  
Operating temperature: 0°C – 40°C (32°F – 104°F)  
External dimensions: 79.6 mm (W) × 154.5 mm (D) × 13.2 mm (H)  
3-1/8” (W) × 6-3/32” (D) × 17/32” (H)  
Dimension error (Error 8):  
Matrix/list dimensions inconsistent while calculation.  
Invalid DIM error (Error 9):  
Size of matrix/list exceeds calculation range.  
Weight:  
Approx. 97g (0.22 lb)  
(Including batteries)  
Accessories:  
Batteries × 2 (installed), operation manual,  
quick reference card and hard case  
No define error (Error 10):  
Undefined matrix/list used in calculation.  
Calculation Ranges  
FOR MORE INFORMATION ABOUT  
SCIENTIFIC CALCULATOR  
Within the ranges specified, this calculator is accurate to  
1
of the least significant digit of the mantissa. However, a  
calculation error increases in continuous calculations due  
Visit our Web site.  
to accumulation of each calculation error. (This is the same  
x
for yx,  
, n!, ex, ln, Matrix/List calculations, etc., where  
¿
continuous calculations are performed internally.)  
Additionally, a calculation error will accumulate and become  
larger in the vicinity of inflection points and singular points  
of functions.  
SHARP CORPORATION  
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ENGLISH  
• • • •  
5
7
KRO;:?≥∆˚¬  
@Ht( 5  
tanh–1— =  
/ 7 )=  
0.895879734  
2.995732274  
1.698970004  
20.08553692  
50.11872336  
ª 8 * 2 OM  
24 /KM=  
KM* 5 =  
16.  
24÷(8×2)=  
(8×2)×5=  
1.5  
80.  
ln 20 =  
I 20 =  
l 50 =  
@e 3 =  
1.7 =  
EL-506W  
EL-546W  
log 50 =  
e3 =  
ªOM  
0.  
450.  
250.  
35.  
$150×3:M1  
150 * 3 ;  
CALCULATION EXAMPLES  
ANWENDUNGSBEISPIELE  
EXEMPLES DE CALCUL  
EJEMPLOS DE CÁLCULO  
EXEMPLOS DE CÁLCULO  
ESEMPI DI CALCOLO  
REKENVOORBEELDEN  
PÉLDASZÁMÍTÁSOK  
PŘÍKLADY VÝPOČTŮ  
RÄKNEEXEMPEL  
101.7  
=
+)$250:M2 =M1+250 250 ;  
–)M2×5%  
RM* 5 @%  
1
6 @•+ 7 @  
1
M
@:RM  
665.  
— + — =  
6
7
•=  
0.309523809  
$1=¥110  
¥26,510=$?  
$2,750=¥?  
110 OY  
110.  
241.  
302’500.  
8–2 – 34 × 52 =  
8 ™  
2 - 3 ™  
26510 /RY=  
4 * 5 L=  
–2’024.984375  
2750 *RY=  
1
12 3 4  
3
4
r=3cm (rY)  
3 OY  
3.  
(12 )  
=
@•=  
6.447419591  
512.  
πr2=?  
@VKYL=  
28.27433388  
83 =  
8 ÷=  
24  
—— = 2.4...(A)  
4+6  
24 /( 4 + 6 )=  
2.4  
¿49 –4¿81 =  
@⁄ 49 - 4 @$  
3 *K?+ 60 /  
81 =  
4.  
3.  
3×(A)+60÷(A)=  
K?=  
32.2  
3
¿27 =  
@# 27 =  
4 @!=  
10 @q 3 =  
5 @Q 2 =  
500 * 25 @%  
120 / 400 @%  
πr2F1  
@VKYL  
LASKENTAESIMERKKEJÄ  
èêàåÖêõ ÇõóàëãÖçàâ  
UDREGNINGSEKSEMPLER  
4! =  
24.  
O≥  
F1  
3.  
4
3 OY  
10P3 =  
720.  
10.  
3
V = ?  
R≥* 4 / 3 =  
37.69911184  
5C2 =  
500×25%=  
120÷400=?%  
125.  
30.  
6+4=ANS  
ANS+5  
ª 6 + 4 =  
10.  
15.  
500+(500×25%)= 500 + 25 @%  
400–(400×30%)= 400 - 30 @%  
625.  
280.  
+ 5 =  
CONTOH-CONTOH PENGHITUNGAN  
CONTOH-CONTOH PERHITUNGAN  
CAÙC VÍ DUÏ PHEÙP TÍNH  
8×2=ANS  
8 * 2 =  
16.  
256.  
ANS2  
L=  
44+37=ANS  
44 + 37 =  
81.  
9.  
ANS=  
@⁄=  
[]  
13(5+2)=  
23×5+2=  
33×5+3×2=  
1  
2  
3  
2  
ª 3 ( 5 + 2 )=  
21.  
17.  
21.  
21.  
17.  
21.  
17.  
\|  
3 * 5 + 2 =  
1
2
4
b
3 * 5 + 3 * 2 =  
3— + — = [a—]  
ª 3 \ 1 \ 2 +  
4 \ 3 =  
\
c
3
@[  
]
4
5
6 *  
l
4.833333333  
29 6  
l
l
[a.xxx]  
[d/c]  
]
@|  
[
2
10  
3
=
2 \ 3 =  
4.641588834  
5
7
5
=
7 \ 5 5 =  
16807 3125  
l
(
(
)
1
3
100000÷3=  
[NORM1]  
[FIX]  
[TAB 2]  
[SCI]  
1 \ 8 1 \ 3  
1
=
)
ª 100000 / 3 = 33’333.33333  
=
1
2
l
8
”10  
”2 2  
33’333.33333  
33’333.33  
64  
—— =  
225  
@⁄ 64 \ 225 =  
8
8
15  
l
”11  
”12  
”13  
3.33 ×10 04–  
23  
( 2 3 ) \  
[ENG]  
[NORM1]  
33.33 ×10 03–  
— =  
34  
( 3 4 ) =  
81  
l
33’333.33333  
θ = sin–1 x, θ = tan–1 x  
θ = cos  
x
–1  
1.2  
3÷1000=  
—– =  
2.3  
1.2 \ 2.3 =  
12 23  
l
DEG  
RAD  
–90 ≤ θ ≤ 90  
0 ≤ θ ≤ 180  
[NORM1]  
[NORM2]  
[NORM1]  
ª 3 / 1000 =  
”14  
0.003  
3. ×10 –03  
0.003  
π
π
1°2’3”  
——– =  
2
– — ≤ θ ≤ —  
0 ≤ θ ≤ π  
1 o 2 o 3 \ 2 =  
1 E 3 \ 2 E 3 =  
0°31’1.5”  
2
2
”13  
1×103  
GRAD  
–100 ≤ θ ≤ 100  
0 ≤ θ ≤ 200  
——– =  
2×103  
1
2
l
+-*/()  
E
A = 7  
ª 7 OA  
4 \KA=  
7.  
7
Åè  
45+285÷3=  
ª 45 + 285 / 3 =  
140.  
4
— =  
4
l
d/dx (x4 – 0.5x3 + 6x2) ªKˆ™ 4 - 0.5 K  
A
18+6  
=
( 18 + 6 )/  
x=2  
ˆ÷+ 6 KˆL  
2 ®®  
2
15–8  
( 15 - 8 =  
3.428571429  
–90.  
1.25 + — = [a.xxx]  
1.25 + 2 \ 5 =  
1.65  
13 20  
5
dx=0.00002  
50.  
b
[a—]  
c
\
1
42×(–5)+120=  
42 *  
5 + 120 =  
l
l
x=3  
® 3 ® 0.001 ®  
130.5000029  
1
*1 (5  
)
*
5
6
dx=0.001  
* 4  
5
6 = 4—  
l
l
(5×103)÷(4×10–3)= 5 E 3 / 4 E  
82 (x2 – 5)dx  
ªKˆL- 5  
è 2 ® 8 ®®  
®®® 10 ®  
3 =  
1’250’000.  
n=100  
n=10  
138.  
138.  
êûîìíãâ†ä  
àá  
DEC(25)BIN  
ª@í 25 @ê  
11001.b  
g
34+57=  
45+57=  
34 + 57 =  
91.  
102.  
HEX(1AC)  
BIN  
PEN  
OCT  
DEC  
1AC  
@ê  
@û  
@î  
@í  
45 + 57 =  
110101100.b  
3203.P  
654.0  
90°[rad]  
[g]  
[°]  
ª 90 @g  
@g  
1.570796327  
100.  
68×25=  
68×40=  
68 * 25 =  
1’700.  
2’720.  
68 * 40 =  
@g  
90.  
428.  
sin–10.8 = [°]  
[rad]  
[g]  
@S 0.8 =  
53.13010235  
0.927295218  
59.03344706  
53.13010235  
sutSUTVhH  
Ile¡•L÷⁄™  
$#!qQ%  
@g  
BIN(1010–100)  
×11 =  
@ê( 1010 - 100 )  
* 11 =  
10010.b  
@g  
[°]  
@g  
BIN(111)NEG  
ã 111 =  
1111111001.b  
HEX(1FF)+  
OCT(512)=  
HEX(?)  
1FF @î+  
sin60[°]=  
ªs 60 =  
0.866025403  
512 =  
1511.0  
349.H  
”01u(  
π
4
@ì  
cos — [rad]=  
@V/ 4 )=  
0.707106781  
50.  
2FEC–  
2C9E=(A)  
+)2000–  
1901=(B)  
(C)  
ªOM@ì 2FEC -  
tan–11=[g]  
”02@T 1 =  
2C9E ;  
2000 -  
1901 ;  
RM  
34E.H  
”00  
6FF.H  
A4d.H  
(cosh 1.5 +  
sinh 1.5)2 =  
ª(hu 1.5 +h  
s 1.5 )L=  
20.08553692  
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• • • •  
• • • •  
• • • •  
k&~£pnzw^  
¢PZWvrab©  
xy≠° (t, P(, Q(, R()  
1011 AND  
ª@ê 1011 †  
101 = (BIN)  
101 =  
1.b  
db.H  
5A OR C3 = (HEX)  
5A ä C3 =  
@êâ 10110 =  
DATA  
NOT 10110 =  
(BIN)  
1111101001.b  
95  
80  
80  
75  
75  
75  
50  
m10  
95 k  
0.  
1.  
2.  
3.  
4.  
5.  
24 XOR 4 = (OCT)  
24 à 4 =  
20.0  
80 k  
k
B3 XNOR  
2D = (HEX)  
DEC  
B3 á  
2D =  
FFFFFFFF61.H  
–159.  
75 & 3 k  
50 k  
@í  
x=  
R~  
Rp  
Rn  
Rz  
Rw  
R£  
L=  
75.71428571  
12.37179148  
7.  
530.  
41’200.  
13.3630621  
178.5714286  
o_° (sec, min)  
12°39’18.05”  
σx=  
n=  
ª 12 o 39 o 18.05  
Σx=  
Σx2=  
sx=  
[10]  
@_  
12.65501389  
123°40’40.8”  
123.678[60]  
123.678 @_  
sx2=  
3h30m45s +  
6h45m36s = [60]  
3 o 30 o 45 + 6 o  
45 o 36 =  
10°16’21.”  
(95–x)  
( 95 -K~)  
/K£* 10  
+ 50 =  
1234°56’12” +  
0°0’34.567” = [60]  
1234 o 56 o 12 +  
×10+50=  
sx  
0 o 0 o 34.567 =  
1234°56’47.”  
64.43210706  
3h45m –  
1.69h = [60]  
3 o 45 - 1.69 =  
@_  
2°3’36.”  
0.884635235  
86’400.  
x = 60 P(t) ?  
t = –0.5 R(t) ?  
°1 60 °0)= 0.102012  
°3 0.5  
)=  
0.691463  
sin62°12’24” = [10]  
24°[ ” ]  
s 62 o 12 o 24=  
24 o°2  
0 o 0 o 1500 °3  
x
2
2
y
5
5
m11  
2 & 5 k  
k
0.  
1.  
2.  
3.  
4.  
1500”[ ’ ]  
25.  
12 24  
21 40  
21 40  
21 40  
15 25  
12 & 24 k  
21 & 40 & 3 k  
15 & 25 k  
Ra  
{},≠  
5.  
ª 6 @, 4  
1.050261097  
1.826044386  
0.995176343  
8.541216597  
15.67223812  
x = 6  
y = 4  
r =  
θ = [°]  
@{[r]  
7.211102551  
33.69006753  
7.211102551  
Rb  
@≠[θ]  
Rr  
@≠[r]  
R£  
R¢  
14 @, 36  
@}[x]  
@≠[y]  
@≠[x]  
r = 14  
θ = 36[°]  
x =  
y =  
11.32623792  
8.228993532  
11.32623792  
x=3 y=?  
y=46 x=?  
3 @y  
6.528394256  
24.61590706  
46 @x  
x
y
m12  
12 & 41 k  
8 & 13 k  
5 & 2 k  
23 & 200 k  
15 & 71 k  
Ra  
0.  
1.  
2.  
3.  
4.  
12 41  
ß
V0 = 15.3m/s  
8
5
13  
2
23 200  
15 71  
ª 15.3 * 10 + 2 @•*  
t = 10s  
1
ß 03 * 10 L=  
643.3325  
V0t+ — gt2 = ?m  
2
5.  
5.357506761  
–3.120289663  
0.503334057  
Rb  
R©  
¥
125yd = ?m  
ª 125 5 =  
114.3  
x=10 y=?  
y=22 x=?  
10 @y  
22 @x  
@≠  
24.4880159  
9.63201409  
–3.432772026  
9.63201409  
(k, M, G, T, m, Ì, n, p, f)  
100m×10k=  
@≠  
100 ∑14*  
10 ∑10=  
1’000.  
k[]  
DATA  
30  
j”  
5÷9=ANS  
ANS×9=  
[FIX,TAB=1]  
m10  
30 k  
0.  
1.  
2.  
3.  
40  
40  
50  
ª”10”2 1  
5 / 9 =  
40 & 2 k  
50 k  
0.6  
5.0  
* 9 =*1  
5 / 9 =@j  
0.6  
5.4  
DATA  
* 9 =*2  
30  
45  
45  
45  
60  
]]]  
45 & 3 k  
]
”13  
X2= 45.  
N2= 3.  
1
*
*
5.5555555555555×10–1×9  
0.6×9  
2
] 60 k  
X3= 60.  
(SOLV)  
sin x–0.5  
Start= 0  
ªsKˆ- 0.5  
∑0 0 ®®  
® 180 ®®  
Σx2 – nx2  
30.  
150.  
Σx  
σx =  
Σx = x + x + ··· + x  
n
x =  
n
n
Start= 180  
1
2
Σx2 – nx2  
n – 1  
Σx2 = x 2 + x 2 + ··· + x  
n
2
1
2
sx =  
y =  
Σy2 – ny2  
m0  
Σy  
n
σy =  
f(x) = x3–3x2+2  
Kˆ™ 3 - 3 K  
ˆL+ 2 @≤  
n
Σxy = x y + x y + ··· + x y  
1
1
2
2
n
n
x = –1  
x = –0.5  
1
®
–2.  
1.125  
Σy2 – ny2  
n – 1  
Σy = y + y + ··· + y  
1
2
n
sy =  
2
Σy2 = y 2 + y 2 + ··· + y  
n
@≤ 0.5  
®
1
2
A2+B2  
@⁄(KAL+  
KBL)@≤  
A = 2, B = 3  
A = 2, B = 5  
2 ® 3 ®  
3.605551275  
5.385164807  
@≤® 5 ®  
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• • • •  
• • • •  
y
@{ 8 Ö 70 + 12 Ö 25  
stdDv L1 = 2.516611478  
ª∑46∑00=  
ª∑47∑00=  
A
= [r]  
18.5408873i  
r
r1  
vari L1 = 6.333333333  
@≠ [θ]  
42.76427608i  
B
θ
θ1  
r2  
θ2  
o_prod(L1,L2) = {–24 –4 19}  
ª∑48∑00  
x
@,∑01)=  
r1 = 8, θ1 = 70°  
r2 = 12, θ2 = 25°  
i_prod(L1,L2) = –29  
ª∑49∑00  
@,∑01)=  
ª∑4A∑01=  
r = ?, θ = ?°  
abs L2 = 5.099019514  
(1 + i)  
r = ?, θ = ?°  
@} 1 +Ü=  
@{ [r]  
1.  
i
list matA matA: 2 –3  
list matA matA: 7 –1  
list matA matA: 4 –4  
1.414213562  
i
ª∑6  
@≠ [θ]  
45.  
i
@}( 2 - 3 Ü)L  
(2 – 3i)2 =  
= [x]  
–5.  
12.  
i
i
@≠ [y]  
1
( 1 +Ü)@•= [x] 0.5  
Function  
Funktion  
Fonction  
Función  
Função  
Funzioni  
Functie  
Függvény  
Funkce  
Funktion  
Funktio  
Dynamic range  
zulässiger Bereich  
Plage dynamique  
Rango dinámico  
Gama dinâmica  
i
i
—— =  
1 + i  
x – x  
t = ––––  
σx  
Standardization conversion formula  
Standard Umrechnungsformel  
@≠ [y]  
0.5  
CONJ(5+2i) =  
∑0( 5 + 2 Ü)= [x] 5.  
i
i
Formule de conversion de standardisation  
Fórmula de conversión de estandarización  
Fórmula de conversão padronizada  
Formula di conversione della standardizzazione  
Standaardisering omzettingsformule  
Standard átváltási képlet  
@≠ [y]  
2.  
Campi dinamici  
Rekencapaciteit  
Megengedett számítási tartomány  
Dynamický rozsah  
Definitionsområde  
Dynaaminen ala  
m (MAT)  
m4  
Vzorec pro přepočet rozděleníꢀ  
1 2  
3 4  
] 2 k 2 k 1 k 2 k  
3 k 4 k  
matA  
Omvandlingsformel för standardisering  
Normituksen konversiokaava  
ª∑20  
îÛÌ͈Ëfl  
Funktion  
ÑË̇Ï˘ÂÒÍËÈ ‰Ë‡Ô‡ÁÓÌ  
Dynamikområde  
3 1  
2 6  
îÓÏÛ· Òڇ̉‡ÚËÁÓ‚‡ÌÌÓ„Ó ÔÂÓ·‡ÁÓ‚‡ÌËfl  
Omregningsformel for standardisering  
matB  
] 2 k 2 k  
3 k 1 k 2 k 6 k  
ª∑21  
7 13  
17 27  
matA × matB =  
ª∑00*∑01=  
Fungsi  
Fungsi  
Haøm soá  
Julat dinamik  
Kisaran dinamis  
Giôùi haïn Ñoäng  
Rumus penukaran pemiawaian  
Rumus konversi standarisasi  
Coâng thöùc bieán ñoåi chuaån hoùaꢀ  
–2  
1
matA–1  
=
ª∑00@•=  
1.5 –0.5  
DEG: | x | < 1010  
m (2-VLE)  
dim(matA,3,3) = 1 2 0  
dim(matA,3,3) = 3 4 0  
dim(matA,3,3) = 0 0 0  
(tan x : | x | 90 (2n–1))*  
ª∑30∑00  
a1x + b1y = c1  
a2x + b2y = c2  
a1 b1  
a2 b2  
π
sin x, cos x,  
D =  
RAD:  
| x | < —– × 1010  
@, 3 @, 3 )=  
180  
π
2
tan x  
(tan x : | x | — (2n–1))*  
10  
fill(5,3,3) = 5 5 5  
fill(5,3,3) = 5 5 5  
fill(5,3,3) = 5 5 5  
GRAD: | x | < —– × 1010  
m20  
ª∑31 5 @,  
9
2x + 3y = 4  
5x + 6y = 7  
2 ® 3 ® 4 ®  
5 ® 6 ® 7  
® [x]  
(tan x : | x | 100 (2n–1))*  
3 @, 3 )=  
sin–1x, cos–1x  
tan–1x, 3  
| x | 1  
| x | < 10100  
10–99 x < 10100  
x = ?  
y = ?  
det(D) = ?  
–1.  
2.  
–3.  
1 2  
cumul matA =  
4 6  
x
¿
ª∑32∑00=  
® [y]  
In x, log x  
® [det(D)]  
y > 0: –10100 < x log y < 100  
1 2 3 1 ª∑33∑00  
aug(matA,matB) =  
y = 0: 0 < x < 10100  
3 4 2 6 @,∑01)=  
x
y
y < 0: x = n  
m (3-VLE)  
1
x
identity 3 = 1 0 0  
identity 3 = 0 1 0  
identity 3 = 0 0 1  
(0 < l x l < 1: — = 2n–1, x 0)*,  
a1x + b1y + c1z = d1  
a2x + b2y + c2z = d2  
a3x + b3y + c3z = d3  
a1 b1 c1  
a2 b2 c2  
a3 b3 c3  
ª∑34 3 =  
–10100 < x log | y | < 100  
D =  
1
x
y > 0: –10100 < — log y < 100 (x 0)  
rnd_mat(2,3)  
det matA = –2  
ª∑35 2 @, 3 )=  
ª∑40∑00=  
y = 0: 0 < x < 10100  
m21  
x
¿y  
y < 0: x = 2n–1  
x + y z = 9  
6x + 6y z = 17  
14x – 7y + 2z = 42  
1 ® 1 ® 1  
6 ® 6 ® 1  
14 ® 7  
® 9 ®  
1
x
(0 < | x | < 1 : — = n, x 0)*,  
–10100 < — log | y | < 100  
® 17 ®  
3 2  
trans matB =  
1 6  
1
x
ª∑41∑01=  
ª∑5  
® 2 ® 42  
x = ?  
® [x]  
3.238095238  
–1.638095238  
–7.4  
x
e
–10100 < x 230.2585092  
–10100 < x < 100  
L1: {1 3}  
mat list  
y = ?  
z = ?  
det(D) = ?  
® [y]  
x
10  
L2: {3 2}  
® [z]  
sinh x, cosh x,  
tanh x  
sinh–1 x  
cosh–1 x  
tanh–1 x  
x2  
® [det(D)]  
105.  
| x | 230.2585092  
m (LIST)  
| x | < 1050  
1 x < 1050  
| x | < 1  
| x | < 1050  
m (QUAD, CUBIC)  
m5  
2, 7, 4 L1  
] 3 k 2 k 7 k 4 k  
ª∑20  
] 3 k  
m22  
3 ® 4 ®  
®
3x2 + 4x – 95 = 0  
x1 = ?  
95  
–3, –1, –4 L2  
x3  
| x | < 2.15443469 × 1033  
5.  
–6.333333333  
5.  
3 k  
1 k  
4 k  
x
x–1  
0 x < 10100  
¿
x2 = ?  
®
| x | < 10100 (x 0)  
0 n 69*  
0 r n 9999999999*  
ª∑21  
@®  
n!  
L1+L2 = {–1 6 0}  
sortA L1 = {2 4 7}  
sortD L1 = {7 4 2}  
ª∑00+∑01=  
ª∑30∑00=  
ª∑31∑00=  
m23  
5x3 + 4x2 + 3x + 7 = 0 5 ® 4 ® 3 ® 7  
nPr  
nCr  
n!  
—— < 10100  
(n-r)!  
x1 = ?  
x2 = ?  
®
–1.233600307  
i
0 r n 9999999999*  
®
0.216800153  
i
ª∑32∑00  
0 r 69  
+
@≠  
®
1.043018296  
dim(L1,5) = {2 7 4 0 0}  
fill(5,5) = {5 5 5 5 5}  
i
@, 5 )=  
n!  
x3 = ?  
0.216800153  
i
—— < 10100  
(n-r)!  
ª∑33 5 @,  
@≠  
1.043018296  
i
DEG, D°M’S  
0°0’0.00001” | x | < 10000°  
x2 + y2 < 10100  
5 )=  
x, y r, θ  
cumul L1 = {2 9 13}  
df_list L1 = {5 –3}  
ª∑34∑00=  
ª∑35∑00=  
m (CPLX)  
0 r < 10100  
DEG: | θ | < 1010  
m3  
π
r, θ → x, y  
RAD:  
| θ | < —– × 1010  
(12–6i) + (7+15i) –  
12 - 6 Ü+ 7 + 15 Ü-  
aug(L1,L2) = {2 7 4 –3 –1 –4} ª∑36∑00  
180  
(11+4i) =  
( 11 + 4 Ü)= [x]  
8.  
5.  
i
i
@,∑01)=  
10  
GRAD : | θ | < — × 1010  
+
@≠ [y]  
9
min L1 = 2  
ª∑40∑00=  
ª∑41∑00=  
ª∑42∑00=  
ª∑43∑00=  
ª∑44∑00=  
ª∑45∑00=  
DEGRAD, GRADDEG: | x | < 10100  
@≠ [x]  
8.i  
max L1 = 7  
DRG |  
π
98  
RADGRAD: | x | <  
× 10  
6×(7–9i) ×  
(–5+8i) =  
6 *( 7 - 9 Ü)*  
2
mean L1 = 4.333333333  
med L1 = 4  
( 5  
+ 8 Ü)= [x] 222.  
i
i
(A+Bi)+(C+Di)  
| A + C | < 10100, | B + D | < 10100  
| A – C | < 10100, | B – D | < 10100  
+
@≠ [y]  
606.  
(A+Bi)–(C+Di)  
(AC – BD) < 10100  
16×(sin30°+  
icos30°)÷(sin60°+  
icos60°)=  
16 *(s 30 +  
sum L1 = 13  
prod L1 = 56  
• • • •  
(A+Bi)×(C+Di)  
(AD + BC) < 10100  
Üu 30 )/(s 60 +  
Üu 60 )= [x]  
13.85640646  
i
i
• • • •  
+
@≠ [y]  
8.  
• • • •  
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• • • •  
Endast svensk version/For Sweden only:  
AC + BD  
C2 + D2  
< 10100  
< 10100  
Miljöskydd  
Denna produkt drivs av batteri.  
Vid batteribyte skall följande iakttagas:  
(A+Bi)÷(C+Di)  
BC – AD  
C2 + D2  
Det förbrukade batteriet skall inlämnas till er lokala handlare  
eller till kommunal miljöstation för återinssamling.  
Kasta ej batteriet i vattnet eller i hushållssoporna. Batteriet  
får ej heller utsättas för öppen eld.  
C2 + D2 0  
DEC  
BIN  
PEN  
OCT  
HEX  
AND  
OR  
XOR  
XNOR  
DEC : | x | 9999999999  
BIN : 1000000000 x 1111111111  
0 x 111111111  
PEN : 2222222223 x 4444444444  
0 x 2222222222  
OCT : 4000000000 x 7777777777  
0 x 3777777777  
HEX : FDABF41C01 x FFFFFFFFFF  
0 x 2540BE3FF  
OPMERKING: ALLEEN VOOR NEDERLAND/  
NOTE: FOR NETHERLANDS ONLY  
BIN : 1000000000 x 1111111111  
0 x 111111111  
PEN : 2222222223 x 4444444444  
0 x 2222222221  
OCT : 4000000000 x 7777777777  
0 x 3777777777  
HEX : FDABF41C01 x FFFFFFFFFF  
0 x 2540BE3FE  
BIN : 1000000001 x 1111111111  
0 x 111111111  
PEN : 2222222223 x 4444444444  
0 x 2222222222  
OCT : 4000000001 x 7777777777  
0 x 3777777777  
HEX : FDABF41C01 x FFFFFFFFFF  
0 x 2540BE3FF  
Physical Constants and Metric Conversions are shown in the  
tables.  
Physikalischen Konstanten und metriche Umrechnungen sind  
in der Tabelle aufgelistet.  
Les constants physiques et les conversion des unités sont  
indiquées sur les tableaux.  
Las constants fisicas y conversiones métricas son mostradas  
en las tables.  
Constantes Fisicas e Conversões Métricas estão mostradas  
nas tablelas.  
La constanti fisiche e le conversioni delle unità di misura  
vengono mostrate nella tabella.  
NOT  
NEG  
De natuurconstanten en metrische omrekeningen staan in de  
tabellen hiernaast.  
A fizikai konstansok és a metrikus átváltások a táblázatokban  
találhatók.  
* n, r: integer / ganze Zahlen / entier / entero / inteiro / intero /  
Fyzikální konstanty a převody do metrické soustavy jsou  
uvedeny v tabulce.  
geheel getal / egész számok / celé číslo / heltal /  
kokonaisluku / ˆÂÎ˚ / heltal /  
/
/
/
Fysikaliska konstanter och metriska omvandlingar visas i  
tabellerna.  
integer / bilangan bulat / soá nguyeân  
Fysikaaliset vakiot ja metrimuunnokset näkyvät taulukoista.  
Ç Ú‡·Îˈ‡ı ÔÓ͇Á‡Ì˚ ÙËÁ˘ÂÒÍË ÍÓÌÒÚ‡ÌÚ˚ Ë  
ÏÂÚ˘ÂÒÍË ÔÂÓ·‡ÁÓ‚‡ÌËfl.  
In Europe:  
Fysiske konstanter og metriske omskrivninger vises i tabellen.  
This equipment complies with the requirements of Directive 89/336/  
EEC as amended by 93/68/EEC.  
Dieses Gerät entspricht den Anforderungen der EG-Richtlinie 89/336/  
EWG mit Änderung 93/68/EWG.  
Pemalar Fizik dan Pertukaran Metrik ditunjukkan di dalam  
jadual.  
Konstanta Fisika dan Konversi Metrik diperlihatkan di dalam  
tabel.  
Caùc Haèng soá Vaät lyù vaø caùc Pheùp bieán ñoåi Heä meùt ñöôïc theå  
hieän trong caùc baûng.  
Ce matériel répond aux exigences contenues dans la directive 89/336/  
CEE modifiée par la directive 93/68/CEE.  
Dit apparaat voldoet aan de eisen van de richtlijn 89/336/EEG,  
gewijzigd door 93/68/EEG.  
Dette udstyr overholder kravene i direktiv nr. 89/336/EEC med tillæg  
nr. 93/68/EEC.  
PHYSICAL CONSTANTS  
ß 01 — 52  
Quest’ apparecchio è conforme ai requisiti della direttiva 89/336/EEC  
come emendata dalla direttiva 93/68/EEC.  
No. SYMBOL UNIT  
No. SYMBOL UNIT  
No. SYMBOL UNIT  
01 - c, c0 m s–1  
19 - µΒ  
J T–1  
J T–1  
J T–1  
J T–1  
J T–1  
J T–1  
m
37 - eV  
38 - t  
J
ꢀ ꢁꢂꢃꢄꢅꢆꢇꢅꢄꢇꢈ ꢄꢉꢅꢊ ꢄꢋꢅꢄꢌꢍꢃꢎꢏꢋꢁꢅꢄꢐ ꢇꢅꢐꢑ ꢄꢌꢄꢐꢅꢊꢇꢁꢐꢑ ꢅꢒꢋ  
ꢍꢓꢈꢂꢐꢔꢋ ꢅꢈꢑ ꢕꢉꢎꢒꢌꢄꢖꢃꢊꢑ ꢕꢋꢒꢇꢈꢑ 89/336/ꢕꢗꢘ, ꢙꢌꢒꢑ ꢍ  
ꢃꢄꢋꢍꢋꢐꢇꢚꢙꢑ ꢄꢉꢅꢙꢑ ꢇꢉꢚꢌꢛꢈꢎꢔꢜꢈꢃꢁ ꢄꢌꢙ ꢅꢈꢋ ꢍꢓꢈꢂꢏꢄ 93/68/ꢕꢗꢘ.  
02 - G  
03 - gn  
04 - me  
05 - mp  
06 - mn  
m3 kg–1 s–2 20 - µe  
K
m
m
m s–2  
kg  
21 - µΝ  
22 - µp  
23 - µn  
24 - µµ  
25 - λc  
26 - λc, p  
27 - σ  
39 - AU  
Este equipamento obedece às exigências da directiva 89/336/CEE na  
sua versão corrigida pela directiva 93/68/CEE.  
40 - pc  
41 - M(12C) kg mol–1  
kg  
Este aparato satisface las exigencias de la Directiva 89/336/CEE  
modificada por medio de la 93/68/CEE.  
-
kg  
42 - h  
J s  
J
07 - m  
kg  
43 - Eh  
µ
Denna utrustning uppfyller kraven enligt riktlinjen 89/336/EEC så som  
kompletteras av 93/68/EEC.  
08 - lu  
09 - e  
kg  
m
44 - G0  
s
–1  
C
W m–2 K–4 45 - α  
Dette produktet oppfyller betingelsene i direktivet 89/336/EEC i  
endringen 93/68/EEC.  
10 - h  
11 - k  
J s  
28 - NΑ, L mol–1  
46 - mp/me  
J K–1  
N A–2  
F m–1  
m
29 - Vm  
30 - R  
31 - F  
32 - RK  
-
m3 mol–1  
J mol–1 K–1 48 - λc, n  
C mol–1  
47 - Mu  
kg mol–1  
m
W m2  
m K  
Tämä laite täyttää direktiivin 89/336/EEC vaatimukset, jota on  
muutettu direktiivillä 93/68/EEC.  
12 - µ0  
13 - ε0  
14 - re  
15 - α  
16 - a0  
17 - R  
49 - c1  
50 - c2  
51 - Z0  
52 -  
чÌÌÓ ÛÒÚÓÈÒÚ‚Ó ÒÓÓÚ‚ÂÚÒÚ‚ÛÂÚ Ú·ӂ‡ÌËflÏ ‰ËÂÍÚË‚˚ 89/336/  
EEC Ò Û˜ÂÚÓÏ ÔÓÔ‡‚ÓÍ 93/68/EEC.  
Ez a készülék megfelel a 89/336/EGK sz. EK-irányelvben és annak 93/  
68/EGK sz. módosításában foglalt követelményeknek.  
Ohm  
33 - e/me C kg–1  
m
m–1  
34 - h/2me m2 s–1  
Pa  
35 - γp  
36 - KJ  
s–1 T–1  
Hz V–1  
Tento pfiístroj vyhovuje poÏadavkÛm smûrnice 89/336/EEC v platném  
znûní 93/68/EEC.  
18 - Φ0  
Wb  
METRIC CONVERSIONS  
x 1 — 44  
Nur für Deutschland/For Germany only:  
No.  
1
UNIT  
No.  
UNIT  
No.  
31  
32  
33  
34  
35  
36  
37  
UNIT  
Umweltschutz  
Das Gerät wird durch eine Batterie mit Strom versorgt.  
Um die Batterie sicher und umweltschonend zu entsorgen,  
beachten Sie bitte folgende Punkte:  
incm  
cmin  
ftm  
16 kglb  
17 °F°C  
18 °C°F  
JcalIT  
calITJ  
hpW  
Whp  
psW  
Wps  
kgf/cm2Pa  
Pakgf/cm2  
atmPa  
Paatm  
mmHgPa  
PammHg  
kgf·mJ  
Jkgf·m  
2
3
Bringen Sie die leere Batterie zu Ihrer örtlichen Mülldeponie,  
zum Händler oder zum Kundenservice-Zentrum zur  
Wiederverwertung.  
4
mft  
ydm  
myd  
milekm  
kmmile  
n milem  
mn mile  
acrem2  
m2acre  
ozg  
19 gal (US)l  
20 lgal (US)  
21 gal (UK)l  
22 lgal (UK)  
23 fl oz (US)ml 38  
24 mlfl oz (US) 39  
25 fl oz (UK)ml 40  
26 mlfl oz (UK) 41  
27 Jcal  
28 calJ  
29  
30  
5
Werfen Sie die leere Batterie niemals ins Feuer, ins Wasser  
oder in den Hausmüll.  
6
7
8
Seulement pour la France/For France only:  
9
Protection de l’environnement  
L’appareil est alimenté par pile. Afin de protéger  
l’environnement, nous vous recommandons:  
10  
11  
12  
13  
14  
15  
d’apporter la pile usagée ou à votre revendeur ou au service  
après-vente, pour recyclage.  
42  
43  
44  
de ne pas jeter la pile usagée dans une source de chaleur,  
dans l’eau ou dans un vide-ordures.  
goz  
lbkg  
Jcal15  
cal15J  
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