Revision as of 21:11, 19 November 2023 by Admin (Created page with "Each of bonds A, B, and C sells for 10,000 and has the same annual effective yield rate and term. The par values and coupon rates are shown below. Each bond is redeemed at par, and all coupons are paid annually. The par values and coupon rates are shown below. {| class="table table-bordered" |- | || Bond A || Bond B || Bond C |- |Par Value || 20,000.00 || 10,835.58 || X |- |Annual Coupon Rate || 0% || 4% ||3% |} Calculate X. <ul class="mw-excansopts"><li>12,240</li...")
(diff) ← Older revision | Latest revision (diff) | Newer revision → (diff)
ABy Admin
Nov 19'23

Exercise

Each of bonds A, B, and C sells for 10,000 and has the same annual effective yield rate and term. The par values and coupon rates are shown below.

Each bond is redeemed at par, and all coupons are paid annually. The par values and coupon rates are shown below.

Bond A Bond B Bond C
Par Value 20,000.00 10,835.58 X
Annual Coupon Rate 0% 4% 3%

Calculate X.

  • 12,240
  • 12,630
  • 13,130
  • 13,540
  • 14,450

Copyright 2023 . The Society of Actuaries, Schaumburg, Illinois. Reproduced with permission.

ABy Admin
Nov 19'23

Solution: A

Let [math]i[/math] be the yield rate, [math]\mathrm{v}=1 /(1+i)[/math], and let [math]n[/math] be the term. For Bond A, 20,000v [math]v^n=10,000[/math] and so [math]v^n=0.5[/math]. For Bond [math]\mathrm{B}, 10,835 \cdot 58\left(v^n+0.04 a_{n i}\right)=10,000[/math] and so

[[math]] a_{n i}=\left(\frac{10,000}{10,835.58}-0.5\right) / 0.04=10.5721 \text {. } [[/math]]


For Bond C,

[[math]] 10,000=X\left(v^n+0.03 a_{n i}\right)=0.81716 X \Rightarrow X=12,237.51 [[/math]]

Copyright 2023 . The Society of Actuaries, Schaumburg, Illinois. Reproduced with permission.

00