Revision as of 01:48, 19 November 2023 by Admin (Created page with "'''Solution: E''' Split this into two perpetuities. One starts at time 0.5 at 500 increasing by 10 every year. The other starts at time 1 at 500 with payments increasing by 10 every year. The semiannual interest rate is <math display = "block"> 1.075^{0.5}-1=0.0368221 </math> The present value of an increasing perpetuity immediate is found using the formula: <math display = "block">\frac{P}{i} + \frac{Q}{i^2}</math> where P is the initial amount and Q is the increas...")
Exercise
ABy Admin
Nov 19'23
Answer
Solution: E
Split this into two perpetuities. One starts at time 0.5 at 500 increasing by 10 every year. The other starts at time 1 at 500 with payments increasing by 10 every year. The semiannual interest rate is
[[math]]
1.075^{0.5}-1=0.0368221
[[/math]]
The present value of an increasing perpetuity immediate is found using the formula:
[[math]]\frac{P}{i} + \frac{Q}{i^2}[[/math]]
where P is the initial amount and Q is the increase amount. The first perpetuity, valued at time 0:
[[math]]\left(\frac{500}{0.075}+\frac{10}{0.075^{2}}\right)\!\left(1.0368221\right)=875.39
[[/math]]
The second perpetuity, valued at time 0:
[[math]]\left(\frac{500}{0.075}+\frac{10}{0.075^{2}}\right)=8444.444
[[/math]]
The total is 8755.39 + 8444.44 = 17,199.83.
Copyright 2023 . The Society of Actuaries, Schaumburg, Illinois. Reproduced with permission.