Interest Rates and Security Valuation - Solved Questions | FINA 4400, Assignments of Financial Market

Download Interest Rates and Security Valuation - Solved Questions | FINA 4400 and more Assignments Financial Market in PDF only on Docsity! Chapter 03 - Interest Rates and Security Valuation Answers to Chapter 3 Questions 1. 935 = 75(PVIFA rr, 5) + 980(PVIF rr, 5)  rr = 8.83% 2. 980 = 75(PVIFA Err, 3) + 990(PVIF , 3)  Err = 7.97% 3. Vb = 1,000(.08) (PVIFA 9%, 10) + 1,000(PVIF 9%, 10) = $935.82 4. EXCEL Problem: Bond Value = $1,268.27 Bond Value = $1,169.36 Bond Value = $1,000.00 Bond Value = $862.01 5. $1,100 = 1,000(.12) (PVIFA ytm/2, 10(2) ) + 1,000(PVIF ytm/2, 10(2) ) => ytm = 10.37% 2 6. EXCEL Problem: Yield to Maturity = 9.87% Yield to Maturity = 9.19% Yield to Maturity = 7.69% Yield to Maturity = 5.97% 7. Vb = 1,000(.07) (PVIFA 14%/4, 4(4) ) + 1,000(PVIF 14%/4, 4(4) ) = $788.35 4 8. $863.73 = 1,000(.08) (PVIFA 10%, n) + 1,000(PVIF 10%, n) => n = 12 years 9. a. Vb = 1,000(.1) (PVIFA 6%/2, 10(2) ) + 1,000(PVIF 6%/2, 10(4) ) = $1,297.55 2 b. Vb = 1,000(.1) (PVIFA 8%/2, 10(2) ) + 1,000(PVIF 8%/2, 10(4) ) = $1,135.90 2 c. From parts a. and b. of this problem, there is a negative relation between required rates and fair values of bonds. 10. a. Premium bond b. Par bond c. Discount bond d. Discount bond e. Premium bond f. Discount bond 11. a. 985 = 1,000(.09) (PVIFA ytm/2, 15(2)) + 1,000(PVIF ytm/2, 15(2))  ytm = 9.186% 2 b. 915 = 1,000(.08) (PVIFA ytm/4, 10(4)) + 1,000(PVIF ytm/4, 10(4))  ytm = 9.316% 4 c. 1,065 = 1,000(.11) (PVIFA ytm, 6) + 1,000(PVIF ytm, 6) ytm = 9.528% 3-1 Chapter 03 - Interest Rates and Security Valuation 12. a. Vb = 1,000(.06) (PVIFA 10%/2, 12(2)) + 1,000(PVIF 10%/2, 12(2)) = $724.03 2 b. Vb = 1,000(.08) (PVIFA 10%/2, 12(2)) + 1,000(PVIF 10%/2, 12(2)) = $862.01 2 c. Vb = 1,000(.10) (PVIFA 10%/2, 12(2)) + 1,000(PVIF 10%/2, 12(2)) = $1,000.00 2 d. From parts a. through c. in this problem, there is a positive relation between coupon rates and present values of bonds. 13. a. Vb = 1,000(.06) (PVIFA 8%/2, 12(2)) + 1,000(PVIF 8%/2, 12(2)) = $847.53 2 b. Vb = 1,000(.08) (PVIFA 8%/2, 12(2)) + 1,000(PVIF 8%/2, 12(2)) = $1,000.00 2 % change in bond value versus part (a) = ($1,000 - $847.53)/$847.53 = 17.99% c. Vb = 1,000(.10) (PVIFA 8%/2, 12(2)) + 1,000(PVIF 8%/2, 12(2)) = $1,152.47 2 % change in bond value versue part (b) = ($1,152.47 - $1,000)/$1,000 = 15.25% d. From these results we see that as coupon rates increase, price volatility decreases. 14. a. Vb = 1,000(.10) (PVIFA 8%/2, 10(2)) + 1,000(PVIF 8%/2, 10(2)) = $1,135.90 2 b. Vb = 1,000(.10) (PVIFA 8%/2, 15(2)) + 1,000(PVIF 8%/2, 15(2)) = $1,172.92 2 c. Vb = 1,000(.10) (PVIFA 8%/2, 20(2)) + 1,000(PVIF 8%/2, 20(2)) = $1,197.93 2 d. From these results we see that there is a positive relation between time to maturity and the difference between present values and face values on bonds. 15. a. Vb = 1,000(.10) (PVIFA 11%/2, 10(2)) + 1,000(PVIF 11%/2, 10(2)) = $940.25 2 % change in bond value = ($940.25 - $1,135.90)/$1,135.90 = -17.22% b. Vb = 1,000(.10) (PVIFA 11%/2, 15(2)) + 1,000(PVIF 11%/2, 15(2)) = $927.33 % change 3.72% 2 % change in bond value = ($927.33 - $1,172.92)/$1,172.92 = -20.94% c. Vb = 1,000(.10) (PVIFA 11%/2, 20(2)) + 1,000(PVIF 11%/2, 20(2)) = $919.77 % change 2.28% 2 % change in bond value = ($919.77 - $1,197.93)/$1,197.93 = -23.22% d. As interest rates increase the variability in bond prices increases as time to maturity increases. 16. The answer to this S&P question will vary depending on the date of the assignment. 3-2 Chapter 03 - Interest Rates and Security Valuation c. Duration always will be lower than the maturity of a fixed-income instrument. That is because duration takes into account the timing of cash flows. The only time duration equals maturity is when there is only one single payment, as with zero-coupon bonds. 23. a. If interest rates rise by 1%, the value of the Bank 1=s loan will be $945,737.56 = 120,000 (PVIFA 13%, 10) +1,000,000(PVIF 13%, 10). The value of the CD will be $941,107.68 = 100,000(PVIFA 11%, 10) + 1,000,000(PVIF 11%, 10). The asset decreased in value by less than the liability. The difference in the changes is $4,630. The value of the zero coupon bond when rates rise by 1% is $840,074.10 = 1,976,362.88(PVIF 13%, 7). The value of the Bank 2=s CD was $894,006.2 and is now $839,518.43. The difference in the changes in the assets ($53,932.10) and liabilities ($54,487.77) is $556. b. Although the numbers are a bit contrived, the point of the problem is to show that in part a even though Bank 1=s assets and liabilities had the same face values and maturities, they have different durations and so the changes in prices because of a change in interest rates was different for the assets compared to the liability. Bank 2=s assets and liabilities have the same current values, but different maturities. But students can verify that the duration of the asset is about the same as the duration of the liability. Consequently, a one percent change in interest rates produces approximately the same change in the prices of the asset and liability. 24. a. D = 4.05 years Time cash flow PVIF PVCF PVCF*t 0.5 50 0.9524 47.620 23.810 1.0 50 0.9070 45.350 45.350 1.5 50 0.8638 43.190 64.785 2.0 50 0.8227 41.135 82.270 2.5 50 0.7835 39.175 97.937 3.0 50 0.7462 37.310 111.930 3.5 50 0.7107 35.535 124.373 4.0 50 0.6768 33.842 135.368 4.5 50 0.6446 32.230 145.035 5.0 1,050 0.6139 644.595 3,222.975 1,000.00 4,053.833 b. Duration for a 14% yield to maturity = 3409.95/859.53 = 3.97 years Duration for a 16% yield to maturity = 3133.14/798.7 = 3.92 years c. From this we see that as yield to maturity increases, duration decreases. 25. a. D = 3,393.18/1,000 = 3.39 years Time cash flow PVIF PVCF PVCF*t 3-5 Chapter 03 - Interest Rates and Security Valuation 0.5 50 .9524 47.62 23.81 3-6 1.0 50 .9070 45.35 45.35 1.5 50 .8638 43.19 64.79 2.0 50 .8227 41.14 82.27 2.5 50 .7835 39.18 97.94 3.0 50 .7462 37.31 111.93 3.5 50 .7107 35.53 124.37 4.0 1,050 .6768 710.68 2,842.72 $1,000 $3,393.18 b. Duration on a 3-year bond = 2,664.74/1,000 = 2.66 years c. Duration on a 2-year bond = 1,861.62/1,000 = 1.86 years d. As maturity increases, duration increases but at a decreasing rate. 26. a. D = 8 years; D = 10 years; D = 12 years. 27. a. Duration = 4,570.4/1,142.53 = 4 years Time cash flow PVIF PVCF PVCF*t 1.0 137.6 .9091 125.091 125.091 2.0 137.6 .8264 113.719 227.438 3.0 137.6 .7513 103.381 310.143 4.0 137.6 .6830 93.983 375.931 5.0 1,137.6 .6209 706.360 3,531.800 $1,142.534 $4,570.403 b. The cash flows from this investment during the four-year investment horizon will be -$1,142.53 at time zero + 137.6 (FVIFA 11%, 4) for the future value of the interest payment reinvested at 11% + 1,024.87 the present value of $1,000 + $137.6 at the 11% discount rate. The three cash flows are $1,142.53 at time 0, and $648.06 + $1,024.86 at time 4 . These cash flows have an IRR of 10%. 28. a. Duration = 39,568.13/9,24184 = 4.28 years Time cash flow PVIF PVCF PVCF*t 1.0 800 .9091 727.27 727.27 2.0 800 .8264 661.16 1322.31 3.0 800 .7513 601.05 1803.16 4.0 800 .6830 546.41 2185.64 5.0 10,800 .6209 6705.95 33,529.75 $9,241.84 $39,568.13 3-7