Casio 9860 User Manual

Casio 9860 Self-Guided Instructions – TVM Mode  
Instructions  
Screenshots  
Using TVM:  
TVM stands for 'Time, Value, Money'. TVM is the Financial Mode on the calculator. However, Financial  
Mathematics questions can also be performed in RUN, EQUA and SSHT modes.  
TVM is fantastic for investigating financial scenarios and is very easy to use when dealing with annuity  
investment and loan scenarios. However, it is important to realize TVM is essentially a 'black-box' …  
a number-in, number-out 'machine'. It is therefore mathematically wise to expose students to using at least RUN  
and EQUA in addition to TVM when dealing with financial mathematics over the full duration of a course. There  
are excellent PD resources at http://www.casioed.net.au/services/tuition/fx9860/fx9860_tuition.php which include  
easy-to-follow worksheets, instructions, and videos on financial mathematics which deal with RUN, EQUA and  
SPREADSHEET Modes.  
Below are instructions that will get you started with TVM. There are different sets of protocols by which TVM can  
be used. The protocol outlined below is very easy to follow.  
Fig1  
Press MENU, scroll to TVM, EXE, then press F2 for Compound Interest (Fig1)  
Note that numbers will appear on this screen from previous calculations. Pay no attention to these numbers.  
Casio 9860 Graphic Calculator  
Self – Guided Instructions  
TVM Mode  
© Richard Andrew / Stuart Palmer 2008  
1
Fig2  
Fig3  
Fig4  
Below are two examples that involve a once-only investment that receives compound interest.  
Example 1:  
A sum of $2 000 is invested at 8%pa interest, compounded monthly, for 20 years.  
What is the future value of this investment?  
Enter the values as they appear in the question, pressing EXE after each entry. Leave FV as the pre-existing value.  
Check your entries with Fig2  
NOTES:  
n=20x12; is the number of months. A good habit for students to enter n as (eg 20x12) so as to minimize careless error.  
I%=8; in TVM, the interest is always pa  
PV is negative because $2000 'left' your pocket  
PMT=0; there were no regular payments  
FV CAN BE ANYTHING! It is what we want to know so it makes no difference what number is showing here.  
P/Y and C/Y = 12; the interest compounds 12 times every year. P/Y and C/Y are always equal.  
Now press F5 for FV (Future Value). See Fig3.  
The answer can be read in the previous screen by pressing EXIT (Fig4)  
Note that FV is positive, not negative, because after 20 years the investment goes 'back into your pocket'.  
The investment has grown from $2000 to $9853.61  
Fig5  
Fig6  
Example 2:  
What annual interest rate will be required for an investment of $12 000 to become $18 000 in 5 years, if the interest  
compounds annually?  
Enter the values as they appear in the question, pressing EXE after each entry. Check your entries with Fig5.  
NOTES:  
n=5 (years)  
I%=ANYTHING; It is what we want to know so it makes no difference what number is entered here.  
PV is negative because $12000 'left' your pocket.  
PMT=0; there were no regular payments  
FV is positive because $18000 will 'return' to your pocket in the future.  
P/Y and C/Y = 1; the interest compounds once a year. P/Y and C/Y are always equal.  
Now press F2 for the interest rate (Fig6)  
Casio 9860 Graphic Calculator  
Self – Guided Instructions  
TVM Mode  
© Richard Andrew / Stuart Palmer 2008  
3
Fig7  
Press EXIT to view solution in previous screen. (Fig7)  
Below is an example that involves repeated investments (an annuity) that receives compound interest.  
Example 1a):  
A sum of $2 000 is invested at the end of every year, at 8%pa interest, compounded yearly, for 20 years.  
What is the future value of this investment?  
Enter the values as they appear in the question, pressing EXE after each entry. Check your entries with Fig8.  
Fig8  
NOTES:  
n=20 (years)  
I%=8; in TVM, the interest is always pa.  
PV=0; the annuity started with nothing  
PMT is negative; each payment 'leaves' your pocket.  
FV CAN BE ANYTHING! It is what we want to know so it makes no difference what number is showing here.  
P/Y and C/Y = 1; the interest compounds once a year. P/Y and C/Y are always equal.  
Fig9  
Now press F5 for FV (Fig9)  
Press EXIT (Fig10)  
Fig10  
Fig11  
Note that FV is positive, not negative, because after 20 years the investment goes back into your pocket.  
The investment was $2000 x 20, which is $40 000  
(The investment has grown from $40 000 to $91 523.93) (to the nearest cent)  
Example 1b:  
What is the present value of the annuity in example 1a?  
OR  
What single investment (earning the same rate of compound interest for 20 years) would give the same future value as the  
repeated investments in example 1a?  
Enter the values as they appear in the question, pressing EXE after each entry. Check your entries with Fig11.  
Casio 9860 Graphic Calculator  
Self – Guided Instructions  
TVM Mode  
© Richard Andrew / Stuart Palmer 2008  
4
Fig12  
Fig13  
NOTES:  
All that needs to change from the Q1a) entries is PMT to be changed to zero!  
The FV for 1b) is the same FV as in 1a).  
Now press F3 for PV (Present Value). See Fig12.  
Press EXIT to view in original screen (Fig13)  
Note that PV is negative, not positive, because the money is leaving your pocket to make the single investment.  
A single investment of $19 636.29 NOW will produce the same result in 20 years.  
"Don't students get confused when being taught TVM because values have to entered differently to the formulae?"  
This is a question often asked by teachers learning TVM. The main difference of course, is that interest rates need to be  
entered as whole-pa-percentages into TVM but as per-time-period-decimals in the formulae. From experience, when  
teaching TVM protocols, if the formulae protocols are referred to simultaneously students understand quickly and with little  
confusion. Over the long term these differences prove to be a very minor disadvantage when compared to the ease and  
versatility of using TVM.  
TVM Graded Question Series:  
The 'Financial_Maths_TVM_Sheets 1-3' are an excellent, graded worksheet series with solutions designed for students to  
gain practice in using TVM.  
For further and more advanced information including practice questions refer to the manual 'Mathematics with a Graphics  
Calculator – Casio fx-9860 AU' by Barry Kissane & Marian Kemp, available at  
Casio 9860 Graphic Calculator  
Self – Guided Instructions  
TVM Mode  
© Richard Andrew / Stuart Palmer 2008  
5

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