Managerial Finance By Gitman Chapter 8 solutions
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The document contains solutions to warm-up exercises and problems related to finance topics like expected return, standard deviation, coefficient of variation, portfolio analysis, and risk measurement. For a given portfolio, the expected return is calculated as the weighted average of the returns weighted by their probabilities. The standard deviation and coefficient of variation are computed to assess the risk of different assets and portfolios. Overall, the document demonstrates various calculations for key risk and return metrics used to analyze investments.
![P8-14. Portfolio analysis
LG 3; Challenge
a. Expected portfolio return:
Alternative 1: 100% Asset F
16% 17% 18% 19%
17.5%
4
pr
Alternative 2: 50% Asset F 50% Asset G
Year
Asset F
(wF rF)
Asset G
(wG rG)
Portfolio Return
rp
2013 (16% 0.50 8.0%) (17% 0.50 8.5%) 16.5%
2014 (17% 0.50 8.5%) (16% 0.50 8.0%) 16.5%
2015 (18% 0.50 9.0%) (15% 0.50 7.5%) 16.5%
2016 (19% 0.50 9.5%) (14% 0.50 7.0%) 16.5%
16.5% 16.5% 16.5% 16.5%
16.5%
4
pr
Alternative 3: 50% Asset F 50% Asset H
Year
Asset F
(wF rF)
Asset H
(wH rH)
Portfolio Return
rp
2013 (16% 0.50 8.0%) (14% 0.50 7.0%) 15.0%
2014 (17% 0.50 8.5%) (15% 0.50 7.5%) 16.0%
2015 (18% 0.50 9.0%) (16% 0.50 8.0%) 17.0%
2016 (19% 0.50 9.5%) (17% 0.50 8.5%) 18.0%
15.0% 16.0% 17.0% 18.0%
16.5%
4
pr
b. Standard deviation:
2
1
( )
( 1)
n
i
rp
i
r r
n
(1)
2 2 2 2
[(16.0% 17.5%) (17.0% 17.5%) (18.0% 17.5%) (19.0% 17.5%) ]
4 1
F
2 2 2 2
[( 1.5%) ( 0.5%) (0.5%) (1.5%) ]
3
F
(0.000225 0.000025 0.000025 0.000225)
3
F
0.0005
.000167 0.01291 1.291%
3
F](https://image.slidesharecdn.com/chapter8solutions-171228070037-191021015145/85/Managerial-Finance-By-Gitman-Chapter-8-solutions-13-320.jpg)
![(2)
2 2 2 2
[(16.5% 16.5%) (16.5% 16.5%) (16.5% 16.5%) (16.5% 16.5%) ]
4 1
FG
2 2 2 2
[(0) (0) (0) (0) ]
3
FG
0FG
(3)
2 2 2 2
[(15.0% 16.5%) (16.0% 16.5%) (17.0% 16.5%) (18.0% 16.5%) ]
4 1
FH
2 2 2 2
[( 1.5%) ( 0.5%) (0.5%) (1.5%) ]
3
FH
[(0.000225 0.000025 0.000025 0.000225)]
3
FH
0.0005
0.000167 0.012910 1.291%
3
FH
c. Coefficient of variation: CV r r
1.291%
0.0738
17.5%
FCV
0
0
16.5%
FGCV
1.291%
0.0782
16.5%
FHCV
d. Summary:
rp: Expected Value
of Portfolio rp CVp
Alternative 1 (F) 17.5% 1.291% 0.0738
Alternative 2 (FG) 16.5% 0 0.0
Alternative 3 (FH) 16.5% 1.291% 0.0782
Since the assets have different expected returns, the coefficient of variation should be used to
determine the best portfolio. Alternative 3, with positively correlated assets, has the highest
coefficient of variation and therefore is the riskiest. Alternative 2 is the best choice; it is
perfectly negatively correlated and therefore has the lowest coefficient of variation.](https://image.slidesharecdn.com/chapter8solutions-171228070037-191021015145/85/Managerial-Finance-By-Gitman-Chapter-8-solutions-14-320.jpg)
![P8-23. Personal finance: Portfolio betas: bp
1
n
j j
j
w b
LG 5; Intermediate
a.
Portfolio A Portfolio B
Asset Beta wA wA bA wB wB bB
1 1.30 0.10 0.130 0.30 0.39
2 0.70 0.30 0.210 0.10 0.07
3 1.25 0.10 0.125 0.20 0.25
4 1.10 0.10 0.110 0.20 0.22
5 0.90 0.40 0.360 0.20 0.18
bA 0.935 bB 1.11
b. Portfolio A is slightly less risky than the market (average risk), while Portfolio B is more
risky than the market. Portfolio B’s return will move more than Portfolio A’s for a given
increase or decrease in market return. Portfolio B is the more risky.
P8-24. Capital asset pricing model (CAPM): rj RF [bj (rm RF)]
LG 6; Basic
Case rj RF [bj (rm RF)]
A 8.9% 5% [1.30 (8% 5%)]
B 12.5% 8% [0.90 (13% 8%)]
C 8.4% 9% [ 0.20 (12% 9%)]
D 15.0% 10% [1.00 (15% 10%)]
E 8.4% 6% [0.60 (10% 6%)]
P8-25. Personal finance: Beta coefficients and the capital asset pricing model
LG 5, 6; Intermediate
To solve this problem you must take the CAPM and solve for beta. The resulting model is:
Beta F
m F
r R
r R
a.
10% 5% 5%
Beta 0.4545
16% 5% 11%
b.
15% 5% 10%
Beta 0.9091
16% 5% 11%
c.
18% 5% 13%
Beta 1.1818
16% 5% 11%
d.
20% 5% 15%
Beta 1.3636
16% 5% 11%
e. If Katherine is willing to take a maximum of average risk then she will be able to have an
expected return of only 16%. (r 5% 1.0(16% 5%) 16%.)](https://image.slidesharecdn.com/chapter8solutions-171228070037-191021015145/85/Managerial-Finance-By-Gitman-Chapter-8-solutions-18-320.jpg)
![P8-26. Manipulating CAPM: rj RF [bj (rm RF)]
LG 6; Intermediate
a. rj 8% [0.90 (12% 8%)]
rj 11.6%
b. 15% RF [1.25 (14% RF)]
RF 10%
c. 16% 9% [1.10 (rm 9%)]
rm 15.36%
d. 15% 10% [bj (12.5% 10%)
bj 2
P8-27. Personal finance: Portfolio return and beta
LG 1, 3, 5, 6: Challenge
a. bp (0.20)(0.80) (0.35)(0.95) (0.30)(1.50) (0.15)(1.25)
0.16 0.3325 0.45 0.1875 1.13
b. rA
($20,000 $20,000) $1,600 $1,600
8%
$20,000 $20,000
rB
($36,000 $35,000) $1,400 $2,400
6.86%
$35,000 $35,000
rC
($34,500 $30,000) 0 $4,500
15%
$30,000 $30,000
rD
($16,500 $15,000) $375 $1,875
12.5%
$15,000 $15,000
c. rP
($107,000 $100,000) $3,375 $10,375
10.375%
$100,000 $100,000
d. rA 4% [0.80 (10% 4%)] 8.8%
rB 4% [0.95 (10% 4%)] 9.7%
rC 4% [1.50 (10% 4%)] 13.0%
rD 4% [1.25 (10% 4%)] 11.5%
e. Of the four investments, only C (15% vs. 13%) and D (12.5% vs. 11.5%) had actual returns
that exceeded the CAPM expected return (15% vs. 13%). The underperformance could be
due to any unsystematic factor that would have caused the firm not do as well as expected.
Another possibility is that the firm’s characteristics may have changed such that the beta at
the time of the purchase overstated the true value of beta that existed during that year. A third
explanation is that beta, as a single measure, may not capture all of the systematic factors that
cause the expected return. In other words, there is error in the beta estimate.](https://image.slidesharecdn.com/chapter8solutions-171228070037-191021015145/85/Managerial-Finance-By-Gitman-Chapter-8-solutions-19-320.jpg)
![P8-28. Security market line, SML
LG 6; Intermediate
a, b, and d.
c. rj RF [bj (rm RF)]
Asset A
rj 0.09 [0.80 (0.13 0.09)]
rj 0.122
Asset B
rj 0.09 [1.30 (0.13 0.09)]
rj 0.142
d. Asset A has a smaller required return than Asset B because it is less risky, based on the beta
of 0.80 for Asset A versus 1.30 for Asset B. The market risk premium for Asset A is 3.2%
(12.2% 9%), which is lower than Asset B’s market risk premium (14.2% 9% 5.2%).
P8-29. Shifts in the security market line
LG 6; Challenge
a, b, c, d.](https://image.slidesharecdn.com/chapter8solutions-171228070037-191021015145/85/Managerial-Finance-By-Gitman-Chapter-8-solutions-20-320.jpg)
![b. rj RF [bj (rm RF)]
rA 8% [1.1 (12% 8%)]
rA 8% 4.4%
rA 12.4%
c. rA 6% [1.1 (10% 6%)]
rA 6% 4.4%
rA 10.4%
d. rA 8% [1.1 (13% 8%)]
rA 8% 5.5%
rA 13.5%
e. (1) A decrease in inflationary expectations reduces the required return as shown in the
parallel downward shift of the SML.
(2) Increased risk aversion results in a steeper slope, since a higher return would be required
for each level of risk as measured by beta.
P8-30. Integrative—risk, return, and CAPM
LG 6; Challenge
a.
Project rj RF [bj (rm RF)]
A rj 9% [1.5 (14% 9%)] 16.5%
B rj 9% [0.75 (14% 9%)] 12.75%
C rj 9% [2.0 (14% 9%)] 19.0%
D rj 9% [0 (14% 9%)] 9.0%
E rj 9% [( 0.5) (14% 9%)] 6.5%
b. and d.
c. Project A is 150% as responsive as the market.](https://image.slidesharecdn.com/chapter8solutions-171228070037-191021015145/85/Managerial-Finance-By-Gitman-Chapter-8-solutions-21-320.jpg)
![Project B is 75% as responsive as the market.
Project C is twice as responsive as the market.
Project D is unaffected by market movement.
Project E is only half as responsive as the market, but moves in the opposite direction as the
market.
d. See graph for new SML.
rA 9% [1.5 (12% 9%)] 13.50%
rB 9% [0.75 (12% 9%)] 11.25%
rC 9% [2.0 (12% 9%)] 15.00%
rD 9% [0 (12% 9%)] 9.00%
rE 9% [ 0.5 (12% 9%)] 7.50%
e. The steeper slope of SMLb indicates a higher risk premium than SMLd for these market
conditions. When investor risk aversion declines, investors require lower returns for any
given risk level (beta).
P8-31. Ethics problem
LG 1; Intermediate
Investors expect managers to take risks with their money, so it is clearly not unethical for
managers to make risky investments with other people’s money. However, managers have a duty
to communicate truthfully with investors about the risk that they are taking. Portfolio managers
should not take risks that they do not expect to generate returns sufficient to compensate
investors for the return variability.](https://image.slidesharecdn.com/chapter8solutions-171228070037-191021015145/85/Managerial-Finance-By-Gitman-Chapter-8-solutions-22-320.jpg)
Managerial Finance By Gitman Chapter 8 solutions
- 1. Answers to Warm-Up Exercises E8-1. Total annual return Answer: ($0 $12,000 $10,000) $10,000 $2,000 $10,000 20% Logistics, Inc. doubled the annual rate of return predicted by the analyst. The negative net income is irrelevant to the problem. E8-2. Expected return Answer: Analyst Probability Return Weighted Value 1 0.35 5% 1.75% 2 0.05 5% 0.25% 3 0.20 10% 2.0% 4 0.40 3% 1.2% Total 1.00 Expected return 4.70% E8-3. Comparing the risk of two investments Answer: CV1 0.10 0.15 0.6667 CV2 0.05 0.12 0.4167 Based solely on standard deviations, Investment 2 has lower risk than Investment 1. Based on coefficients of variation, Investment 2 is still less risky than Investment 1. Since the two investments have different expected returns, using the coefficient of variation to assess risk is better than simply comparing standard deviations because the coefficient of variation considers the relative size of the expected returns of each investment. E8-4. Computing the expected return of a portfolio Answer: rp (0.45 0.038) (0.4 0.123) (0.15 0.174) (0.0171) (0.0492) (0.0261 0.0924 9.24% The portfolio is expected to have a return of approximately 9.2%. E8-5. Calculating a portfolio beta Answer: Beta (0.20 1.15) (0.10 0.85) (0.15 1.60) (0.20 1.35) (0.35 1.85) 0.2300 0.0850 0.2400 0.2700 0.6475 1.4725 E8-6. Calculating the required rate of return Answer: a. Required return 0.05 1.8 (0.10 0.05) 0.05 0.09 0.14 b. Required return 0.05 1.8 (0.13 0.05) 0.05 0.144 0.194 c. Although the risk-free rate does not change, as the market return increases, the required return on the asset rises by 180% of the change in the market’s return.
- 2. Solutions to Problems P8-1. Rate of return: 1 1( ) t t t t t P P C r = P LG 1; Basic a. Investment X: Return ($21,000 $20,000 $1,500) 12.50% $20,000 Investment Y: Return ($55,000 $55,000 $6,800) 12.36% $55,000 b. Investment X should be selected because it has a higher rate of return for the same level of risk. P8-2. Return calculations: 1 1( ) t t t t t P P C r = P LG 1; Basic Investment Calculation rt(%) A ($1,100 $800 $100) $800 25.00 B ($118,000 $120,000 $15,000) $120,000 10.83 C ($48,000 $45,000 $7,000) $45,000 22.22 D ($500 $600 $80) $600 3.33 E ($12,400 $12,500 $1,500) $12,500 11.20 P8-3. Risk preferences LG 1; Intermediate a. The risk-neutral manager would accept Investments X and Y because these have higher returns than the 12% required return and the risk doesn’t matter. b. The risk-averse manager would accept Investment X because it provides the highest return and has the lowest amount of risk. Investment X offers an increase in return for taking on more risk than what the firm currently earns. c. The risk-seeking manager would accept Investments Y and Z because he or she is willing to take greater risk without an increase in return. d. Traditionally, financial managers are risk averse and would choose Investment X, since it provides the required increase in return for an increase in risk.
- 3. P8-4. Risk analysis LG 2; Intermediate a. Expansion Range A 24% 16% 8% B 30% 10% 20% b. Project A is less risky, since the range of outcomes for A is smaller than the range for Project B. c. Since the most likely return for both projects is 20% and the initial investments are equal, the answer depends on your risk preference. d. The answer is no longer clear, since it now involves a risk-return tradeoff. Project B has a slightly higher return but more risk, while A has both lower return and lower risk. P8-5. Risk and probability LG 2; Intermediate a. Camera Range R 30% 20% 10% S 35% 15% 20% b. Possible Outcomes Probability Pri Expected Return ri Weighted Value (%)(ri Pri) Camera R Pessimistic 0.25 20 5.00% Most likely 0.50 25 12.50% Optimistic 0.25 30 7.50% 1.00 Expected return 25.00% Camera S Pessimistic 0.20 15 3.00% Most likely 0.55 25 13.75% Optimistic 0.25 35 8.75% 1.00 Expected return 25.50% c. Camera S is considered more risky than Camera R because it has a much broader range of outcomes. The risk-return tradeoff is present because Camera S is more risky and also provides a higher return than Camera R.
- 4. P8-6. Bar charts and risk LG 2; Intermediate a. b. Market Acceptance Probability Pri Expected Return ri Weighted Value (ri Pri) Line J Very Poor 0.05 0.0075 0.000375 Poor 0.15 0.0125 0.001875 Average 0.60 0.0850 0.051000 Good 0.15 0.1475 0.022125 Excellent 0.05 0.1625 0.008125 1.00 Expected return 0.083500 Line K Very Poor 0.05 0.010 0.000500 Poor 0.15 0.025 0.003750 Average 0.60 0.080 0.048000 Good 0.15 0.135 0.020250 Excellent 0.05 0.150 0.007500 1.00 Expected return 0.080000 c. Line K appears less risky due to a slightly tighter distribution than line J, indicating a lower range of outcomes.
- 5. P8-7. Coefficient of variation: r CV r LG 2; Basic a. A 7% 0.3500 20% ACV B 9.5% 0.4318 22% BCV C 6% 0.3158 19% CCV D 5.5% 0.3438 16% DCV b. Asset C has the lowest coefficient of variation and is the least risky relative to the other choices. P8-8. Standard deviation versus coefficient of variation as measures of risk LG 2; Basic a. Project A is least risky based on range with a value of 0.04. b. The standard deviation measure fails to take into account both the volatility and the return of the investment. Investors would prefer higher return but less volatility, and the coefficient of variation provices a measure that takes into account both aspects of investors’ preferences. Project D has the lowest CV, so it is the least risky investment relative to the return provided. c. A 0.029 0.2417 0.12 ACV B 0.032 0.2560 0.125 BCV C 0.035 0.2692 0.13 CCV D 0.030 0.2344 0.128 DCV In this case Project D is the best alternative since it provides the least amount of risk for each percent of return earned. Coefficient of variation is probably the best measure in this instance since it provides a standardized method of measuring the risk-return tradeoff for investments with differing returns.
- 6. P8-9. Personal finance: Rate of return, standard deviation, coefficient of variation LG 2; Challenge a. Stock Price Variance Year Beginning End Returns (Return–Average Return)2 2009 2010 2011 2012 14.36 21.55 64.78 72.38 21.55 64.78 72.38 91.80 50.07% 200.60% 11.73% 26.83% 0.0495 1.6459 0.3670 0.2068 b. Average return 72.31% c. Sum of variances 2.2692 3 Sample divisor (n 1) 0.7564 Variance 86.97% Standard deviation d. 1.20 Coefficient of variation e. The stock price of Hi-Tech, Inc. has definitely gone through some major price changes over this time period. It would have to be classified as a volatile security having an upward price trend over the past 4 years. Note how comparing securities on a CV basis allows the investor to put the stock in proper perspective. The stock is riskier than what Mike normally buys but if he believes that Hi-Tech, Inc. will continue to rise then he should include it. The coefficient of variation, however, is greater than the 0.90 target. P8-10. Assessing return and risk LG 2; Challenge a. Project 257 (1) Range: 1.00 ( .10) 1.10 (2) Expected return: =1 n i ri i r r P Rate of Return ri Probability Pri Weighted Value ri Pri Expected Return 1 n i ri i r r P .10 0.01 0.001 0.10 0.04 0.004 0.20 0.05 0.010 0.30 0.10 0.030 0.40 0.15 0.060 0.45 0.30 0.135 0.50 0.15 0.075 0.60 0.10 0.060 0.70 0.05 0.035 0.80 0.04 0.032 1.00 0.01 0.010 1.00 0.450
- 7. (3) Standard deviation: 2 1 ( ) n i ri i r r P ri r ir r ( )ir r 2 Pri ( )ir r 2 Pri 0.10 0.450 0.550 0.3025 0.01 0.003025 0.10 0.450 0.350 0.1225 0.04 0.004900 0.20 0.450 0.250 0.0625 0.05 0.003125 0.30 0.450 0.150 0.0225 0.10 0.002250 0.40 0.450 0.050 0.0025 0.15 0.000375 0.45 0.450 0.000 0.0000 0.30 0.000000 0.50 0.450 0.050 0.0025 0.15 0.000375 0.60 0.450 0.150 0.0225 0.10 0.002250 0.70 0.450 0.250 0.0625 0.05 0.003125 0.80 0.450 0.350 0.1225 0.04 0.004900 1.00 0.450 0.550 0.3025 0.01 0.003025 0.027350 Project 257 0.027350 0.165378 (4) 0.165378 0.3675 0.450 CV Project 432 (1) Range: 0.50 0.10 0.40 (2) Expected return: 1 n i ri i r r P Rate of Return ri Probability Pri Weighted Value ri Pri Expected Return =1 n i ri i r r P 0.10 0.05 0.0050 0.15 0.10 0.0150 0.20 0.10 0.0200 0.25 0.15 0.0375 0.30 0.20 0.0600 0.35 0.15 0.0525 0.40 0.10 0.0400 0.45 0.10 0.0450 0.50 0.05 0.0250 1.00 0.300
- 8. (3) Standard deviation: 2 1 ( ) n i ri i r r P ri r ir r 2 ( )ir r Pri P2 ( )i rir r 0.10 0.300 0.20 0.0400 0.05 0.002000 0.15 0.300 0.15 0.0225 0.10 0.002250 0.20 0.300 0.10 0.0100 0.10 0.001000 0.25 0.300 0.05 0.0025 0.15 0.000375 0.30 0.300 0.00 0.0000 0.20 0.000000 0.35 0.300 0.05 0.0025 0.15 0.000375 0.40 0.300 0.10 0.0100 0.10 0.001000 0.45 0.300 0.15 0.0225 0.10 0.002250 0.50 0.300 0.20 0.0400 0.05 0.002000 0.011250 Project 432 0.011250 0.106066 (4) 0.106066 0.3536 0.300 CV b. Bar Charts
- 9. c. Summary statistics Project 257 Project 432 Range 1.100 0.400 Expected return ( )r 0.450 0.300 Standard deviation ( )r 0.165 0.106 Coefficient of variation (CV) 0.3675 0.3536 Since Projects 257 and 432 have differing expected values, the coefficient of variation should be the criterion by which the risk of the asset is judged. Since Project 432 has a smaller CV, it is the opportunity with lower risk. P8-11. Integrative—expected return, standard deviation, and coefficient of variation LG 2; Challenge a. Expected return: 1 n i ri i r r P Rate of Return ri Probability Pri Weighted Value ri Pri Expected Return 1 n i ri i r r P Asset F 0.40 0.10 0.04 0.10 0.20 0.02 0.00 0.40 0.00 0.05 0.20 0.01 0.10 0.10 0.01 0.04
- 10. Continued Asset G 0.35 0.40 0.14 0.10 0.30 0.03 0.20 0.30 0.06 0.11 Asset H 0.40 0.10 0.04 0.20 0.20 0.04 0.10 0.40 0.04 0.00 0.20 0.00 0.20 0.10 0.02 0.10 Asset G provides the largest expected return. b. Standard deviation: 2 1 ( ) n i ri i r r xP ir r ( )ir r 2 Pri 2 r Asset F 0.40 0.04 0.36 0.1296 0.10 0.01296 0.10 0.04 0.06 0.0036 0.20 0.00072 0.00 0.04 0.04 0.0016 0.40 0.00064 0.05 0.04 0.09 0.0081 0.20 0.00162 0.10 0.04 0.14 0.0196 0.10 0.00196 0.01790 0.1338 Asset G 0.35 0.11 .24 0.0576 0.40 0.02304 0.10 0.11 0.01 0.0001 0.30 0.00003 0.20 0.11 0.31 0.0961 0.30 0.02883 0.05190 0.2278 Asset H 0.40 0.10 .30 0.0900 0.10 0.009 0.20 0.10 .10 0.0100 0.20 0.002 0.10 0.10 0.00 0.0000 0.40 0.000 0.00 0.10 0.10 0.0100 0.20 0.002 0.20 0.10 0.30 0.0900 0.10 0.009 0.022 0.1483 Based on standard deviation, Asset G appears to have the greatest risk, but it must be measured against its expected return with the statistical measure coefficient of variation, since the three assets have differing expected values. An incorrect conclusion about the risk of the assets could be drawn using only the standard deviation.
- 11. c. standard deviation ( ) Coefficient of variation = expected value Asset F: 0.1338 3.345 0.04 CV Asset G: 0.2278 2.071 0.11 CV Asset H: 0.1483 1.483 0.10 CV As measured by the coefficient of variation, Asset F has the largest relative risk. P8-12. Normal probability distribution LG 2; Challenge a. Coefficient of variation: CV r r Solving for standard deviation: 0.75 r 0.189 r 0.75 0.189 0.14175 b. (1) 68% of the outcomes will lie between 1 standard deviation from the expected value: 1 0.189 0.14175 0.33075 1 0.189 0.14175 0.04725 (2) 95% of the outcomes will lie between 2 standard deviations from the expected value: 2 0.189 (2 0.14175) 0.4725 2 0.189 (2 0.14175) 0.0945 (3) 99% of the outcomes will lie between 3 standard deviations from the expected value: 3 0.189 (3 0.14175) 0.61425 3 0.189 (3 0.14175) 0.23625 c.
- 12. P8-13. Personal finance: Portfolio return and standard deviation LG 3; Challenge a. Expected portfolio return for each year: rp (wL rL) (wM rM) Year Asset L (wL rL) Asset M (wM rM) Expected Portfolio Return rp 2013 (14% 0.40 5.6%) (20% 0.60 12.0%) 17.6% 2014 (14% 0.40 5.6%) (18% 0.60 10.8%) 16.4% 2015 (16% 0.40 6.4%) (16% 0.60 9.6%) 16.0% 2016 (17% 0.40 6.8%) (14% 0.60 8.4%) 15.2% 2017 (17% 0.40 6.8%) (12% 0.60 7.2%) 14.0% 2018 (19% 0.40 7.6%) (10% 0.60 6.0%) 13.6% b. Portfolio return: 1 n j j j p w r r n 17.6 16.4 16.0 15.2 14.0 13.6 15.467 15.5% 6 pr c. Standard deviation: 2 1 ( ) ( 1) n i rp i r r n 2 2 2 2 2 2 (17.6% 15.5%) (16.4% 15.5%) (16.0% 15.5%) (15.2% 15.5%) (14.0% 15.5%) (13.6% 15.5%) 6 1 rp 2 2 2 2 2 2 (2.1%) (0.9%) (0.5%) ( 0.3%) ( 1.5%) ( 1.9%) 5 rp (.000441 0.000081 0.000025 0.000009 0.000225 0.000361) 5 rp 0.001142 0.000228% 0.0151 1.51% 5 rp d. The assets are negatively correlated. e. Combining these two negatively correlated assets reduces overall portfolio risk.
- 13. P8-14. Portfolio analysis LG 3; Challenge a. Expected portfolio return: Alternative 1: 100% Asset F 16% 17% 18% 19% 17.5% 4 pr Alternative 2: 50% Asset F 50% Asset G Year Asset F (wF rF) Asset G (wG rG) Portfolio Return rp 2013 (16% 0.50 8.0%) (17% 0.50 8.5%) 16.5% 2014 (17% 0.50 8.5%) (16% 0.50 8.0%) 16.5% 2015 (18% 0.50 9.0%) (15% 0.50 7.5%) 16.5% 2016 (19% 0.50 9.5%) (14% 0.50 7.0%) 16.5% 16.5% 16.5% 16.5% 16.5% 16.5% 4 pr Alternative 3: 50% Asset F 50% Asset H Year Asset F (wF rF) Asset H (wH rH) Portfolio Return rp 2013 (16% 0.50 8.0%) (14% 0.50 7.0%) 15.0% 2014 (17% 0.50 8.5%) (15% 0.50 7.5%) 16.0% 2015 (18% 0.50 9.0%) (16% 0.50 8.0%) 17.0% 2016 (19% 0.50 9.5%) (17% 0.50 8.5%) 18.0% 15.0% 16.0% 17.0% 18.0% 16.5% 4 pr b. Standard deviation: 2 1 ( ) ( 1) n i rp i r r n (1) 2 2 2 2 [(16.0% 17.5%) (17.0% 17.5%) (18.0% 17.5%) (19.0% 17.5%) ] 4 1 F 2 2 2 2 [( 1.5%) ( 0.5%) (0.5%) (1.5%) ] 3 F (0.000225 0.000025 0.000025 0.000225) 3 F 0.0005 .000167 0.01291 1.291% 3 F
- 14. (2) 2 2 2 2 [(16.5% 16.5%) (16.5% 16.5%) (16.5% 16.5%) (16.5% 16.5%) ] 4 1 FG 2 2 2 2 [(0) (0) (0) (0) ] 3 FG 0FG (3) 2 2 2 2 [(15.0% 16.5%) (16.0% 16.5%) (17.0% 16.5%) (18.0% 16.5%) ] 4 1 FH 2 2 2 2 [( 1.5%) ( 0.5%) (0.5%) (1.5%) ] 3 FH [(0.000225 0.000025 0.000025 0.000225)] 3 FH 0.0005 0.000167 0.012910 1.291% 3 FH c. Coefficient of variation: CV r r 1.291% 0.0738 17.5% FCV 0 0 16.5% FGCV 1.291% 0.0782 16.5% FHCV d. Summary: rp: Expected Value of Portfolio rp CVp Alternative 1 (F) 17.5% 1.291% 0.0738 Alternative 2 (FG) 16.5% 0 0.0 Alternative 3 (FH) 16.5% 1.291% 0.0782 Since the assets have different expected returns, the coefficient of variation should be used to determine the best portfolio. Alternative 3, with positively correlated assets, has the highest coefficient of variation and therefore is the riskiest. Alternative 2 is the best choice; it is perfectly negatively correlated and therefore has the lowest coefficient of variation.
- 15. P8-15. Correlation, risk, and return LG 4; Intermediate a. (1) Range of expected return: between 8% and 13% (2) Range of the risk: between 5% and 10% b. (1) Range of expected return: between 8% and 13% (2) Range of the risk: 0 risk 10% c. (1) Range of expected return: between 8% and 13% (2) Range of the risk: 0 risk 10% P8-16. Personal finance: International investment returns LG 1, 4; Intermediate a. Returnpesos 24,750 20,500 4,250 0.20732 20.73% 20,500 20,500 b. Price in pesos 20.50 Purchase price $2.22584 1,000 shares $2,225.84 Pesos per dollar 9.21 Price in pesos 24.75 Sales price $2.51269 1,000 shares $2,512.69 Pesos per dollar 9.85 c. Returnpesos 2,512.69 2,225.84 286.85 0.12887 12.89% 2,225.84 2,225.84 d. The two returns differ due to the change in the exchange rate between the peso and the dollar. The peso had depreciation (and thus the dollar appreciated) between the purchase date and the sale date, causing a decrease in total return. The answer in part c is the more important of the two returns for Joe. An investor in foreign securities will carry exchange-rate risk. P8-17. Total, nondiversifiable, and diversifiable risk LG 5; Intermediate a. and b. c. Only nondiversifiable risk is relevant because, as shown by the graph, diversifiable risk can be virtually eliminated through holding a portfolio of at least 20 securities that are not positively correlated. David Talbot’s portfolio, assuming diversifiable risk could no longer be reduced by additions to the portfolio, has 6.47% relevant risk.
- 16. P8-18. Graphic derivation of beta LG 5; Intermediate a. b. To estimate beta, the ―rise over run‖ method can be used: Rise Beta Run Y X Taking the points shown on the graph: 12 9 3 Beta A 0.75 8 4 4 Y X 26 22 4 Beta B 1.33 13 10 3 Y X A financial calculator with statistical functions can be used to perform linear regression analysis. The beta (slope) of line A is 0.79; of line B, 1.379. c. With a higher beta of 1.33, Asset B is more risky. Its return will move 1.33 times for each one point the market moves. Asset A’s return will move at a lower rate, as indicated by its beta coefficient of 0.75. P8-19. Graphical derivation and interpretation of beta LG 5; Intermediate a. With a return range from 60% to 60%, Biotech Cures, exhibited in Panel B, is the more risky stock. Returns are widely dispersed in this return range regardless of market conditions. By comparison, the returns of Panel A’s Cyclical Industries Incorporated only range from about 40% to 40%. There is less dispersion of returns within this return range. b. The returns on Cyclical Industries Incorporated’s stock are more closely correlated with the market’s performance. Hence, most of Cyclical Industries’ returns fit around the upward sloping least-squares regression line. By comparison, Biotech Cures has earned returns approaching 60% during a period when the overall market experienced a loss. Even if the market is up, Biotech Cures has lost almost half of its value in some years. c. On a standalone basis, Biotech Cures Corporation is riskier. However, if an investor was seeking to diversify the risk of their current portfolio, the unique, nonsystematic performance of Biotech Cures Corporation makes it a good addition. Other considerations would be the mean return for both (here Cyclical Industries has a higher return when the overall market return is zero), expectations regarding the overall market performance, and level to which one can use historic returns to accurately forecast stock price behavior.
- 17. P8-20. Interpreting beta LG 5; Basic Effect of change in market return on asset with beta of 1.20: a. 1.20 (15%) 18.0% increase b. 1.20 ( 8%) 9.6% decrease c. 1.20 (0%) no change d. The asset is more risky than the market portfolio, which has a beta of 1. The higher beta makes the return move more than the market. P8-21. Betas LG 5; Basic a. and b. Asset Beta Increase in Market Return Expected Impact on Asset Return Decrease in Market Return Impact on Asset Return A 0.50 0.10 0.05 0.10 0.05 B 1.60 0.10 0.16 0.10 0.16 C 0.20 0.10 0.02 0.10 0.02 D 0.90 0.10 0.09 0.10 0.09 c. Asset B should be chosen because it will have the highest increase in return. d. Asset C would be the appropriate choice because it is a defensive asset, moving in opposition to the market. In an economic downturn, Asset C’s return is increasing. P8-22. Personal finance: Betas and risk rankings LG 5; Intermediate a. Stock Beta Most risky B 1.40 A 0.80 Least risky C 0.30 b. and c. Asset Beta Increase in Market Return Expected Impact on Asset Return Decrease in Market Return Impact on Asset Return A 0.80 0.12 0.096 0.05 0.04 B 1.40 0.12 0.168 0.05 0.07 C 0.30 0.12 0.036 0.05 0.015 d. In a declining market, an investor would choose the defensive stock, Stock C. While the market declines, the return on C increases. e. In a rising market, an investor would choose Stock B, the aggressive stock. As the market rises one point, Stock B rises 1.40 points.
- 18. P8-23. Personal finance: Portfolio betas: bp 1 n j j j w b LG 5; Intermediate a. Portfolio A Portfolio B Asset Beta wA wA bA wB wB bB 1 1.30 0.10 0.130 0.30 0.39 2 0.70 0.30 0.210 0.10 0.07 3 1.25 0.10 0.125 0.20 0.25 4 1.10 0.10 0.110 0.20 0.22 5 0.90 0.40 0.360 0.20 0.18 bA 0.935 bB 1.11 b. Portfolio A is slightly less risky than the market (average risk), while Portfolio B is more risky than the market. Portfolio B’s return will move more than Portfolio A’s for a given increase or decrease in market return. Portfolio B is the more risky. P8-24. Capital asset pricing model (CAPM): rj RF [bj (rm RF)] LG 6; Basic Case rj RF [bj (rm RF)] A 8.9% 5% [1.30 (8% 5%)] B 12.5% 8% [0.90 (13% 8%)] C 8.4% 9% [ 0.20 (12% 9%)] D 15.0% 10% [1.00 (15% 10%)] E 8.4% 6% [0.60 (10% 6%)] P8-25. Personal finance: Beta coefficients and the capital asset pricing model LG 5, 6; Intermediate To solve this problem you must take the CAPM and solve for beta. The resulting model is: Beta F m F r R r R a. 10% 5% 5% Beta 0.4545 16% 5% 11% b. 15% 5% 10% Beta 0.9091 16% 5% 11% c. 18% 5% 13% Beta 1.1818 16% 5% 11% d. 20% 5% 15% Beta 1.3636 16% 5% 11% e. If Katherine is willing to take a maximum of average risk then she will be able to have an expected return of only 16%. (r 5% 1.0(16% 5%) 16%.)
- 19. P8-26. Manipulating CAPM: rj RF [bj (rm RF)] LG 6; Intermediate a. rj 8% [0.90 (12% 8%)] rj 11.6% b. 15% RF [1.25 (14% RF)] RF 10% c. 16% 9% [1.10 (rm 9%)] rm 15.36% d. 15% 10% [bj (12.5% 10%) bj 2 P8-27. Personal finance: Portfolio return and beta LG 1, 3, 5, 6: Challenge a. bp (0.20)(0.80) (0.35)(0.95) (0.30)(1.50) (0.15)(1.25) 0.16 0.3325 0.45 0.1875 1.13 b. rA ($20,000 $20,000) $1,600 $1,600 8% $20,000 $20,000 rB ($36,000 $35,000) $1,400 $2,400 6.86% $35,000 $35,000 rC ($34,500 $30,000) 0 $4,500 15% $30,000 $30,000 rD ($16,500 $15,000) $375 $1,875 12.5% $15,000 $15,000 c. rP ($107,000 $100,000) $3,375 $10,375 10.375% $100,000 $100,000 d. rA 4% [0.80 (10% 4%)] 8.8% rB 4% [0.95 (10% 4%)] 9.7% rC 4% [1.50 (10% 4%)] 13.0% rD 4% [1.25 (10% 4%)] 11.5% e. Of the four investments, only C (15% vs. 13%) and D (12.5% vs. 11.5%) had actual returns that exceeded the CAPM expected return (15% vs. 13%). The underperformance could be due to any unsystematic factor that would have caused the firm not do as well as expected. Another possibility is that the firm’s characteristics may have changed such that the beta at the time of the purchase overstated the true value of beta that existed during that year. A third explanation is that beta, as a single measure, may not capture all of the systematic factors that cause the expected return. In other words, there is error in the beta estimate.
- 20. P8-28. Security market line, SML LG 6; Intermediate a, b, and d. c. rj RF [bj (rm RF)] Asset A rj 0.09 [0.80 (0.13 0.09)] rj 0.122 Asset B rj 0.09 [1.30 (0.13 0.09)] rj 0.142 d. Asset A has a smaller required return than Asset B because it is less risky, based on the beta of 0.80 for Asset A versus 1.30 for Asset B. The market risk premium for Asset A is 3.2% (12.2% 9%), which is lower than Asset B’s market risk premium (14.2% 9% 5.2%). P8-29. Shifts in the security market line LG 6; Challenge a, b, c, d.
- 21. b. rj RF [bj (rm RF)] rA 8% [1.1 (12% 8%)] rA 8% 4.4% rA 12.4% c. rA 6% [1.1 (10% 6%)] rA 6% 4.4% rA 10.4% d. rA 8% [1.1 (13% 8%)] rA 8% 5.5% rA 13.5% e. (1) A decrease in inflationary expectations reduces the required return as shown in the parallel downward shift of the SML. (2) Increased risk aversion results in a steeper slope, since a higher return would be required for each level of risk as measured by beta. P8-30. Integrative—risk, return, and CAPM LG 6; Challenge a. Project rj RF [bj (rm RF)] A rj 9% [1.5 (14% 9%)] 16.5% B rj 9% [0.75 (14% 9%)] 12.75% C rj 9% [2.0 (14% 9%)] 19.0% D rj 9% [0 (14% 9%)] 9.0% E rj 9% [( 0.5) (14% 9%)] 6.5% b. and d. c. Project A is 150% as responsive as the market.
- 22. Project B is 75% as responsive as the market. Project C is twice as responsive as the market. Project D is unaffected by market movement. Project E is only half as responsive as the market, but moves in the opposite direction as the market. d. See graph for new SML. rA 9% [1.5 (12% 9%)] 13.50% rB 9% [0.75 (12% 9%)] 11.25% rC 9% [2.0 (12% 9%)] 15.00% rD 9% [0 (12% 9%)] 9.00% rE 9% [ 0.5 (12% 9%)] 7.50% e. The steeper slope of SMLb indicates a higher risk premium than SMLd for these market conditions. When investor risk aversion declines, investors require lower returns for any given risk level (beta). P8-31. Ethics problem LG 1; Intermediate Investors expect managers to take risks with their money, so it is clearly not unethical for managers to make risky investments with other people’s money. However, managers have a duty to communicate truthfully with investors about the risk that they are taking. Portfolio managers should not take risks that they do not expect to generate returns sufficient to compensate investors for the return variability.