ABy Admin
Nov 19'23
Exercise
The price of a 36-year zero-coupon bond is 80% of its face value. A second bond, with the same price, same face value, and same annual effective yield rate, offers annual coupons with the coupon rate equal to 4 9 of the annual effective yield rate.
Calculate the number of years until maturity for the second bond.
- 45
- 54
- 63
- 72
- 81
Copyright 2023 . The Society of Actuaries, Schaumburg, Illinois. Reproduced with permission.
ABy Admin
Nov 19'23
Solution: D
Let i = yield rate, r = coupon rate (if any), F = face value, P = price, n = # of years. For the first bond:
[[math]]
\begin{array}{l}{{P=0.8F=F_{V}{}^{36}}}\\ {{0.8=\nu^{36}}}\\ {{i=0.006218}}\end{array}
[[/math]]
For the second bond:
[[math]]
P=0.8F=F\nu^{n}+{\frac{4}{9}}(0.006218)F a_{n|0.006218} \\
0.8 = v^n + (0.0027634)a_{n|0.006218}
[[/math]]
Using the BAII Plus, where PV=0.8, I/Y=.6218, PMT=0.0027634, FV=1 CPT N results in n=72.
Copyright 2023 . The Society of Actuaries, Schaumburg, Illinois. Reproduced with permission.