Revision as of 23:11, 4 December 2023 by Admin (Created page with "'''Solution: D''' The current price of the bond is <math display="block"> P_0=\frac{$ 60}{1.065}+\frac{$ 60}{1.065^2}+\frac{$ 1060}{1.065^3}=$ 986.76 </math> You can sell it in one year for <math display="block"> P_1=\frac{$ 60}{1.065}+\frac{$ 1060}{1.065^2}=$ 990.90 </math> But there is also the <math>$ 60</math> of coupon. So the total return is <math display="block"> R o R=($ 990.90+$ 60) / \$ 986.76-1=6.5 \% </math> '''References''' {{cite web |url=http...")
Exercise
Dec 04'23
Answer
Solution: D
The current price of the bond is
[[math]]
P_0=\frac{$ 60}{1.065}+\frac{$ 60}{1.065^2}+\frac{$ 1060}{1.065^3}=$ 986.76
[[/math]]
You can sell it in one year for
[[math]]
P_1=\frac{$ 60}{1.065}+\frac{$ 1060}{1.065^2}=$ 990.90
[[/math]]
But there is also the [math]$ 60[/math] of coupon. So the total return is
[[math]]
R o R=($ 990.90+$ 60) / \$ 986.76-1=6.5 \%
[[/math]]
References
Lo, Andrew W.; Wang, Jiang. "MIT Sloan Finance Problems and Solutions Collection Finance Theory I" (PDF). alo.mit.edu. Retrieved November 30, 2023.