Revision as of 22:39, 17 November 2023 by Admin (Created page with "Bill and Joe each put 10 into separate accounts at time t = 0, where t is measured in years. Bill’s account earns interest at a constant annual effective interest rate of K/25, K > 0. Joe’s account earns interest at a force of interest, <math>\delta_t = \frac{1}{K + 0.25t}</math> At the end of four years, the amount in each account is X. Calculate X. <ul class="mw-excansopts"><li>20.7</li><li>21.7</li><li>22.7</li><li>23.7</li><li>24.7</li></ul> {{soacopyright |...")
ABy Admin
Nov 17'23
Exercise
Bill and Joe each put 10 into separate accounts at time t = 0, where t is measured in years. Bill’s account earns interest at a constant annual effective interest rate of K/25, K > 0.
Joe’s account earns interest at a force of interest, [math]\delta_t = \frac{1}{K + 0.25t}[/math]
At the end of four years, the amount in each account is X.
Calculate X.
- 20.7
- 21.7
- 22.7
- 23.7
- 24.7
Copyright 2023 . The Society of Actuaries, Schaumburg, Illinois. Reproduced with permission.
ABy Admin
Nov 17'23
Solution: A
Equating the accumulated values after 4 years provides an equation in K
[[math]]
\begin{align*}
10(1+\frac{K}{25})^{4} &= 10\exp \left(\int_{0}^{*4}\frac{1}{K+0.25t}d t\right) \\
4\ln(1+0.04K) &= \int_{0}^{4}\frac{1}{K+0.25t}d t=4\ln(K)+0.25t)\big|_{0}^{4} \\
&=4\ln(\operatorname{K}+0.25t)\big|_{0}^{4} \\
&=4\ln(K+1)-4\ln(K) = 4\ln\frac{K+1}{K} \\
& 1+0.04K = \frac{K+1}{K}\\
& 0.04K^2 = 1 \\
&K = 5
\end{align*}
[[/math]]
Therefore [math]X = 10(1+5/25)^4=20.74.[/math]
Copyright 2023 . The Society of Actuaries, Schaumburg, Illinois. Reproduced with permission.