College Algebra Project Saving forthe Future In this project you will investigat

Question

College Algebra Project Saving forthe Future In this project you will investigate compound interest, specifically how it applies to the typical retirement plan. For instance, many retirement plans deduct a set amount out of an employee's paycheck. Thus, each year you would invest an additional amount on top of all previous investments including all previously earned interest. If you invest P dollars every year for t years in an account with an interest rate of r(expressed as a decima compounded n times per year, then you will have accumulated C dollars as a function of time, given by the following formula. Compound Interest Formula, with Annual Investments nt P 1 C(t) I will derive this formula to give you a broader understanding of where it came from and how it is based upon the single deposit compound interest formula. If you invest Pdollars every year for t years at an interest rater, expressed as a decimal, compounded n times per year, then you will have accumulated the cumulative amount of Cdollars given by the formula derived below: Each annual investment would grow according to the compound interest formula A(t) P 1 Thus the first deposit of P dollars would draw interest for the full t years, the second deposit would only draw interest for t-1 years, the third deposit would only draw interest for t-2 years. and the last deposit would only draw interest for a

Explanation / Answer

1) rate = 9% , t = 3yrs ; compounded monthly

a) P = $1

C(t) = 1( 1+ 0.09/12)^(12)( 1- ( 1+ 0.09/12)^(12*3) ) /( 1 - ( 1+0.09/12)^12)

= (1.0075)^12(-0.3086)/(-0.0938)

=1.0938*0.3086/0.0938 = $3.5986

d) In part a effective yield of an account.This part can be used to answer other parts

as interest rate , time remains same , only the annual investement changes.So, we can answer

other parts by multiplying the factor calculated in part a) with principal invested in each part.

b) P =$1000

C(t) = P*3.5986 = 1000*3.5986 = $3598.60

c) P = $4500

C(t) = P*4500 = $16193.7

2) IRA, rate = 12% ; P = $2500 ; compounded quartetly

C(t) = ( 1+ 0.12/4)^4( 1- (1.03)^4t) /(1 - (1 +0.12/4)^4 )

=1.125( 1 -1.03^4t)/(-0.1255)

=-8.96414( 1- 1.03^4t)

We can use this part to answer all parts by substituting value of t

a) t = 5yr

C(t) = - 8.96414(1 - 1.03^4*5)P = 7.226*2500 =$ 18065.23

b) t = 10 yrs

C(t) = -8.96414( 1- 1.03^40)*2500 =$ 50693.058

c) t = 20yrs

C(t) = -8.96414( 1 - 1.03^80)*2500 =$216055.7317

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