Compound Interest

2.7 Present Value: Formula Approach

To find out the initial amount of money required to achieve a certain future value, we calculate the present value (PV). This amount represents the initial sum of money that, after accruing interest over time, will reach the desired future amount. The present value can also be considered the equivalent value of a given sum of money at an earlier point in time. To calculate the present value, Formula 2.4a can be rearranged for [asciimath]PV[/asciimath].

 

 [asciimath]PV=(FV)/(1+i)^N[/asciimath]Formula 2.4b

which using the negative-exponent notation is equivalent to

 [asciimath]PV=FV(1+i)^-N[/asciimath]       Formula 2.4c

The method of calculating the present value of a given future value is called discounting. Thus, the present value is sometimes referred to as the discounted value, and the amount of interest calculated for such cases is called the compound discount. The compound discount is obtained the same way the compound interest is computed using Formula 2.3.

 

Example 2.7.1: Compute PV

Calculate the discounted value of $4320 that is due in 5 years and 8 months given the interest rate is 3.45% compounded monthly.

Show/Hide Solution

Given information:

  • Future value: [asciimath]FV = $4320[/asciimath]
  • Nominal interest rate: [asciimath]I//Y  = 3.45%[/asciimath]
  • Interest is compounded monthly so [asciimath]C//Y = 12[/asciimath]
  • Compound term: [asciimath]t =[/asciimath] 5 years + 8 months [asciimath]= 5+8/12=5 8/12[/asciimath] years
  • Periodic interest rate: [asciimath]i = (I//Y)/(C//Y) = (3.45%)/12 =0.2875%[/asciimath]
  • Number of compounding periods in the term: [asciimath]N =C//Y*t=12 (5 8/12) = 68[/asciimath]

Substituting the values into Formula 2.4c yields

 [asciimath]PV=FV(1+i)^-N[/asciimath]

 [asciimath]PV=4320(1+0.2875%)^-68[/asciimath]

 [asciimath]=3553.865541...[/asciimath]

 [asciimath]~~ $3553.87[/asciimath]  (Rounded to the nearest cents)

 

Try an Example

 

Section 2.7 Exercises

  1. Wyatt would like to accumulate $197,100 for his retirement in 16 years. If his local bank promises him 4.16% compounded quarterly, how much he should invest today?
    Show/Hide Answer

     

    PV = $101,651.32

  2. Find the amount paid for an investment that will mature to $171,000 in 6 years and 2 months at the interest rate of 3.04% compounded quarterly.
    Show/Hide Answer

     

    PV = $141,869.22

  3. Compute the present value of $132,300 that is invested for 8 years and 6 months at 4.36% compounded monthly.
    Show/Hide Answer

     

    PV = $91,390.70

License

Icon for the Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License

Mathematics of Finance Copyright © 2024 by Amir Tavangar is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License, except where otherwise noted.

Share This Book