INVESTMENTS-CONNECT PLUS ACCESS
11th Edition
ISBN: 2810022611546
Author: Bodie
Publisher: MCG
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Chapter 13, Problem 5PS
Summary Introduction
To calculate: The second pass SML regression is to be performed by relapsing the normal abundance profit of every portfolio for its beta.
Introduction:
The security market line (SML) is a line drawn on an outline that fills in as a graphical portrayal of the
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Students have asked these similar questions
Using the CAPM, estimate the appropriate required
rate of return for the three stocks listed here, given
that the risk-free rate is 4 percent and the expected
return for the market is 17 percent.
STOCK BETA
A 0.63
B 0.95
C 1.48
a. Using the CAPM, the required rate of return for
stock A is
B.Using the CAPM, the required rate of return for
stock b is
C.Using the CAPM, the required rate of return for
stock C is
(Round to two decimal places.)
Assume that you run a regression on the raw returns of the stock of Company J against the raw
returns of the market and find an intercept of 1.324 percent and a beta of 1.75. If the risk-free rate
is 2.64 percent, and using the concept of Jensen's Alpha, then determine by how much this stock
beat the market.
Answer in decimal format, to 4 decimal places. For example, if you answer is 3.33%, enter "0.0333".
Assume that you run a regression on the raw returns of the stock of Company J against the raw
returns of the market and find an intercept of 1.324 percent and a beta of 2.36. If the risk-free rate
is 2.64 percent, and using the concept of Jensen's Alpha, then determine by how much this stock
beat the market.
Answer in decimal format. For example, if you answer is 3.33%, enter "0.0333"
Chapter 13 Solutions
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- Consider an investment portfolio that consists of three different stocks, with the amount invested in each asset shownbelow. Assume the risk-free rate is 2.5% and the market risk premium is 6%. Use this information to answer thefollowing questions.Stock Weights BetasChesapeake Energy 25% 0.8Sodastream 50% 1.3Pentair 25% 1.0a) Compute the expected return for each stock using the CAPM and assuming that the stocks are all fairly priced.b) Compute the portfolio beta and the expected return on the portfolio.c) Now assume that the portfolio only includes 50% invested in Pentair and 50% invested in Sodastream (i.e., a twoassetportfolio). The yearly-return standard deviation of Pentair is 48% and the yearly-return standard deviation ofSodastream is 60%. The correlation coefficent between Pentair’s returns and Sodastream’s returns is 0.3 What is theexpected yearly-return standard deviation for this portfolio?arrow_forwardThe following portfolios are being considered for investment. During the period under consideration, RFR = 0.07. Portfolio Return Beta P 0.15 1.00 0.05 Q 0.09 0.50 0.03 R. 0.21 1.30 0.10 0.18 1.20 0.06 Market 0.12 1.00 0.04 a. Compute the Sharpe measure for each portfolio and the market portfolio. Round your answers to three decimal places. Portfolio Sharpe measure P Q R Market b. Compute the Treynor measure for each portfolio and the market portfolio. Round your answers to three decimal places. Portfolio Treynor measure P Q R Market c. Rank the portfolios using each measure, explaining the cause for any differences you find in the rankings. Portfolio Rank (Sharpe measure) Rank (Treynor measure) P |-Select- v |-Select- v Q -Select- v -Select- V R. -Select- V -Select- v -Select- v -Select- v Market -Select- v -Select- v -Select- v is poorly diversified since it has a high ranking based on the -Select- but a much lower ranking with the -Select-arrow_forwardThe following portfolios are being considered for investment. During the period under consideration, RFR = 0.08. Portfolio Return Beta σi P 0.14 1.00 0.05 Q 0.20 1.30 0.11 R 0.10 0.60 0.03 S 0.17 1.20 0.06 Market 0.12 1.00 0.04 Compute the Sharpe measure for each portfolio and the market portfolio. Round your answers to three decimal places. Portfolio Sharpe measure P Q R S Market Compute the Treynor measure for each portfolio and the market portfolio. Round your answers to three decimal places. Portfolio Treynor measure P Q R S Marketarrow_forward
- Suppose that there exist two securities (A and B) with annual expected returns equal to ra = 3% and rg = 5% and standard deviations equal to o4 = 7% and oB = 10% respectively. The correlation coefficient between the returns of these securities is p = -0.5. What is the expected return and the standard deviation of an equally weighted portfolio consisting of the securities A and B? Describe every step of your calculations in detail. What is the expected return and the standard deviation of a portfolio consisting of the securities A and B, if the relevant weights are chosen to minimize the risk of the portfolio? Present the minimisation problem and describe every step of your calculations in detail. How could an investor maximize diversification benefits? Critically discuss and explain in detail.arrow_forwardThe index model has been estimated for stock A with the following results: RA = 0.01 + 1.2RM + eA. σM = 0.15; σ(eA) = 0.10. The standard deviation of the return for stock A isarrow_forwardThe index model for stock A has been estimated with the following result: RA = 0.01 + 0.9RM + eA. If σM = 0.25 and R2A = 0.25, the standard deviation of return of stock A is:arrow_forward
- Need allarrow_forward3. Consider three stocks A, B and C and a market index M with the following prices: Year TO T1 T2 T3 A 85 108 110 125 B 12 14 13 15 C 50 60 70 75 M 1128 1435 1578 1786 The risk-free rate equals 4%. a. Compute the expected return and risk on each stock and the market index. b. Construct the matrix of variances and covariances between these assets. c. Construct the matrix of the correlation coefficients. d. Compute the beta coefficients of these companies and the expected return at equilibrium. e. Construct the minimum risk portfolio P1 composed of A and C. Compute the expected return and risk on this portfolio. f. Construct a portfolio P2 composed of A, B and C in proportions of 20%, 30% and 50%. Compute the expected return and risk on this portfolio. What is the contribution of each security to the return and risk pf this portfolio? g. Construct an equally weighted portfolio P3 composed of A, B, C and the risk-free rate. Compute the beta coefficient and position this portfolio with…arrow_forwardConsider the two (excess return) index-model regression results for stocks A and B. The risk-free rate over the period was 7%, and the market's average return was 14%. Performance is measured using an index model regression on excess returns. Index model regression estimates R-square Residual standard deviation, o(e) Standard deviation of excess returns. i. Alpha ii. Information ratio iii. Sharpe ratio iv. Treynor measure Stock A a. Calculate the following statistics for each stock: (Round your answers to 4 decimal places.) % Stock A 1% +1.2(rm rf) % 0.635 11.3% 22.6% Stock B % % Stock B 2% +0.8( rm -rf) b. Which stock is the best choice under the following circumstances? 0.466 20.1% 26.9% i. This is the only risky asset to be held by the investor. ii. This stock will be mixed with the rest of the investor's portfolio, currently composed solely of holdings in the market-index fund. iii. This is one of many stocks that the investor is analyzing to form an actively managed stock…arrow_forward
- Suppose the expected returns and standard deviations of Stocks A and B are E(RA) = .092, E(RB) = 152, đA = .362, and Og = .622. %3D Calculate the expected return of a portfolio that is composed of 37 percent A and 63 percent B when the correlation between the returns on A and B is .52. (Do not a-1. round intermediate calculations and enter your answer as a percent rounded to 2 decimal places, e.g., 32.16.) Calculate the standard deviation of a portfolio that is composed of 37 percent A and 63 percent B when the correlation coefficient between the returns on A and B is .52. а-2. (Do not round intermediate calculations and enter your answer as a percent rounded to 2 decimal places, e.g., 32.16.) Calculate the standard deviation of a portfolio with the same portfolio weights as in h part (a) when the correlation coefficient between the returns on A and B is -.52. (Do not round intermediate calculations and enter your answer as a percent rounded to 2 decimal places, e.g., 32.16.) a-1.…arrow_forwardPlease solve step by step for clarity, thank you!arrow_forwardThe index model has been estimated using historical excess return data for stocks A, B, and C, with the following results: RA = 0.02 + 0.9RM + eA RB = 0.04 + 1.2RM + eB RC = 0.10 + 1.ORM + eC OM oM = 0.22 o(eA) = 0.21 o(eB ) = 0.11 o(eC ) = 0.23 a. What are the standard deviations of stocks A, B, and C? b. Break down the variances of stocks A, B, and C into their systematic and firm-specific components. c. What is the covariance between the returns on each pair of stocks? d. What is the covariance between each stock and the market index?arrow_forward
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