Revision as of 17:35, 26 November 2023 by Admin (Created page with "Kathryn deposits 100 into an account at the beginning of each 4-year period for 40 years. The account credits interest at an annual effective interest rate of i. The accumulated amount in the account at the end of 40 years is X, which is 5 times the accumulated amount in the account at the end of 20 years. Calculate X. <ul class="mw-excansopts"><li>4695</li><li>5070 </li><li>5445 </li><li>5820 </li><li>6195</li></ul> '''References''' {{cite web |url=https://web2.uwi...")
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ABy Admin
Nov 26'23

Exercise

Kathryn deposits 100 into an account at the beginning of each 4-year period for 40 years. The account credits interest at an annual effective interest rate of i. The accumulated amount in the account at the end of 40 years is X, which is 5 times the accumulated amount in the account at the end of 20 years.

Calculate X.

  • 4695
  • 5070
  • 5445
  • 5820
  • 6195

References

Hlynka, Myron. "University of Windsor Old Tests 62-392 Theory of Interest". web2.uwindsor.ca. Retrieved November 23, 2023.

ABy Admin
Nov 26'23

Solution: E

[[math]] X=100\left[(1+i)^{40}+(1+i)^{36}+\cdots+(1+i)^4\right]=\frac{\left.100 *(1+i)^4 *\left(1-(1+i)^{40}\right)\right)}{1-(1+i)^4} [[/math]]

[[math]] Y=A(20)=100\left[(1+i)^{20}+(1+i)^{16}+\cdots+(1+i)^4\right]=\frac{100 *(1+i)^4 *\left(1-(1+i)^{20}\right)}{1-(1+i)^4} . [[/math]]


Using [math]X=5 Y[/math] and using a difference of squares on the left side gives [math]1+(1+i)^{20}=5[/math] so [math](1+i)^{20}=4[/math] so [math](1+i)^4=4^2=1.319508[/math].

Hence

[[math]]X=\frac{\left.100 *(1+i)^4 *\left(1-(1+i)^{40}\right)\right)}{1-(1+i)^4}=\frac{100 * 1.3195 *\left(1-4^2\right)}{1-1.3195}=6194.84[[/math]]

References

Hlynka, Myron. "University of Windsor Old Tests 62-392 Theory of Interest". web2.uwindsor.ca. Retrieved November 23, 2023.

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