excans:5789d3e1d9

Dec 05'23

Solution: E

[[math]]D=\frac{\sum_{i=1}^{20} \frac{i}{1.04^i}}{\sum_{i=1}^{20} \frac{1}{1.04^i}}=9.21[[/math]]

years.

Need to match the duration and also the value of investment today should be equal to the total liabilities. So have the following two equations:

[[math]] V_5 * 5+V_{20} * 20=D *\left(V_5+V_{20}\right) [[/math]]

[math]V_5+V_{20}=\$ 13.59 M[/math] Annuity formula Solving gives [math]V_5=\$ 9.78 M[/math] and [math]V_{20}= \$3.81 M [/math]

[[math]] \begin{aligned} & P_5=V_5 *(1.04)^5=\$ 11.9 M \\ & P_{20}=V_{20} *(1.04)^{20}=\$ 8.36 M \end{aligned} [[/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.