excans:6d1c25b57c: Difference between revisions
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(Created page with "'''Solution: B''' The company must purchase 4000 in one-year bonds and 6000 in two-year bonds. The total purchase price is 4000 /1.08 + 6000 /1.11<sup>2</sup>= 8573. {{soacopyright | 2023 }}") |
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'''Solution: | '''Solution: C''' | ||
Let A be the redemption value of the zero-coupon bonds purchased and B the number of two- | |||
year bonds purchased. The total present value is: | |||
<math display = "block"> | |||
1783.76=A/1.05+B(100/1.06+1\,100/1.06^{2})=0.952384+1073.3357B. | |||
</math> | |||
To exactly match the cash flow at time one, A + 100B = 1000. Substituting B = 10 – 0.01A in the first equation gives 1783.76 = 0.95238A + 10733.357 – 10.733357A for A = 8949.597/9.780977 = 915. The amount invested is then 915/1.05 = 871. | |||
{{soacopyright | 2023 }} | {{soacopyright | 2023 }} | ||
Latest revision as of 21:13, 20 November 2023
Solution: C
Let A be the redemption value of the zero-coupon bonds purchased and B the number of two- year bonds purchased. The total present value is:
[[math]]
1783.76=A/1.05+B(100/1.06+1\,100/1.06^{2})=0.952384+1073.3357B.
[[/math]]
To exactly match the cash flow at time one, A + 100B = 1000. Substituting B = 10 – 0.01A in the first equation gives 1783.76 = 0.95238A + 10733.357 – 10.733357A for A = 8949.597/9.780977 = 915. The amount invested is then 915/1.05 = 871.
Copyright 2023 . The Society of Actuaries, Schaumburg, Illinois. Reproduced with permission.