exercise:A2ff0476a2

Nov 29'23

Exercise

(Broverman exercise 4.1.2) A 6% bond maturing in 8 years with semiannual coupons to yield 5% convertible semiannually is to be replaced by a 5.5% bond yielding the same return. In how many years should the new bond mature? (Both bonds have the same price, yield rate and face amount.)

18.5
19
20
21.5
22

References

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

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ABy Admin

Nov 29'23

Solution: D

Let [math]P=[/math] price of bond [math]1(=[/math] price of bond 2[math]) .8[/math] years means 16 periods. Bond 1 gives [math]P=F v^{16}+F r a_{\overline{16} \mid}=F(1.025)^{-16}+F(.03) a_{\overline{16} \mid .025}[/math].

For bond 2, let [math]n[/math] be the number of years. There are [math]2 n[/math] periods. Bond 2 gives [math]P=F(1.025)^{-2 n}+F(.0275) a_{\overline{2 n \mid} .025}[/math]. Equating the two expressions and cancelling [math]F[/math] gives

[[math]] \begin{aligned} & 1.025^{-16}+.03\left(1-1.025^{-16}\right) / .025=1.025^{-2 n}+.0275\left(1-1.025^{-2 n}\right) / .025 . \text { Thus } \\ & 1.025^{-2 n} / 10=1.1-\left(1.025^{-16}+.03\left(1-1.025^{-16}\right) / .025\right)=0.03472499 . \text { Thus } \\ & -2 n(\ln (1.025))=\ln (.3472499) \text { so } \\ & 2 n=-.5 * \ln (.3472499) / \ln (1.025) \text { and } n=21.41755 \end{aligned} [[/math]]

We round this to [math]2 n=-.5 * \ln (.3472499) / \ln (1.025)[/math] and [math]n=21.41755[/math] years. We round this to 21.5 years to get the final coupon.

References

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