Multiple Choice Questions
1. As diversification increases, the total variance of a portfolio approaches
____________.
A) 0
B) 1
C) the variance of the market portfolio
D) infinity
E) none of the above
Answer: C Difficulty: Easy
Rationale: As more and more securities are added to the portfolio, unsystematic risk decreases and most of the remaining risk is systematic, as measured by the variance of the market portfolio.
2. The index model was first suggested by ____________.
A) Graham
B) Markowitz
C) Miller
D) Sharpe
E) none of the above
Answer: D Difficulty: Easy
Rationale: William Sharpe, building on the work of Harry Markowitz, developed the index model.
3. A single-index model uses __________ as a proxy for the systematic risk factor.
A) a market index, such as the S&P 500
B) the current account deficit
C) the growth rate in GNP
D) the unemployment rate
E) none of the above
Answer: A Difficulty: Easy
Rationale: The single-index model uses a market index, such as the S&P 500, as a proxy for the market, and thus for systematic risk.
4. The Security Risk Evaluation book published by Merrill Lynch relies on the
__________ most recent monthly observations to calculate regression parameters.
A) 12
B) 36
C) 60
D) 120
E) none of the above
Answer: C Difficulty: Easy
Rationale: Most published betas and other regression parameters, including those published by Merrill Lynch, are based on five years of monthly return data.
5. The Security Risk Evaluation book published by Merrill Lynch uses the __________ as a proxy for the market portfolio.
A) Dow Jones Industrial Average
B) Dow Jones Transportation Average
C) S&P 500 Index
D) Wilshire 5000
E) none of the above
Answer: C Difficulty: Easy
Rationale: The Merrill Lynch data (and much of the other published data sets) are based on the S&P 500 index as a market proxy.
6. According to the index model, covariances among security pairs are
A) return
due to the influence of a single common factor represented by the market index
B) extremely difficult to calculate
C) related to industry-specific events
D) usually positive
E) A and D
Answer: E Difficulty: Easy
Rationale: Most securities move together most of the time, and move with a market index, or market proxy.
7. The intercept calculated by Merrill Lynch in the regression equations is equal to
A) α in the CAPM
B) α + rf(1 + β)
C) α + rf(1 - β)
D) 1 - α
E) none of the above
Answer: C Difficulty: Moderate
Rationale: The intercept that Merrill Lynch calls alpha is really, using the parameters of the CAPM, an estimate of a + rf (1 - b). The apparent justification for this procedure is that, on a monthly basis, rf(1 - b) is small and is apt to be swamped by the volatility of actual stock returns.
8. Analysts may use regression analysis to estimate the index model for a stock.
When doing so, the slope of the regression line is an estimate of ______________.
A) the α of the asset
B) the β of the asset
C) the σ of the asset
D) the δ of the asset
E) none of the above
Answer: B Difficulty: Moderate
Rationale: The slope of the regression line, b, measures the volatility of the stock versus the volatility of the market.
9. _________.
In a factor model, the return on a stock in a particular period will be related to
A) firm-specific events
B) macroeconomic events
C) the error term
D) both A and B
E) neither A nor B
Answer: D Difficulty: Moderate
Rationale: The return on a stock is related to both firm-specific and macroeconomic events.
10. Rosenberg and Guy found that __________ helped to predict a firm's beta.
A) the firm's financial characteristics
B) the firm's industry group
C) firm size
D) both A and B
E) A, B and C all helped to predict betas.
Answer: E Difficulty: Moderate
Rationale: Rosenberg and Guy found that after controlling for the firm's financial characteristics, the firm's industry group was a significant predictor of the firm's beta.
11. If the index model is valid, _________ would be helpful in determining the
covariance between assets K and L.
A) βk
B) βL
C) σM
D) all of the above
E) none of the above
Answer: D Difficulty: Moderate
Rationale: If the index model is valid A, B, and C are determinants of the covariance between K and L.
12. Rosenberg and Guy found that ___________ helped to predict firms' betas.
A) debt/asset ratios
B) market capitalization
C) variance of earnings
D) all of the above
E) none of the above
Answer: D Difficulty: Moderate
Rationale: Rosenberg and Guy found that A, B, and C were determinants of firms' betas.
13. If a firm's beta was calculated as 0.6 in a regression equation, Merrill Lynch would
state the adjusted beta at a number
A) less than 0.6 but greater than zero.
B) between 0.6 and 1.0.
C) between 1.0 and 1.6.
D) greater than 1.6.
E) zero or less.
Answer: B Difficulty: Moderate
Rationale: Betas, on average, equal one; thus, betas over time regress toward the mean, or 1. Therefore, if historic betas are less than 1, adjusted betas are between 1 and the calculated beta.
14. The beta of Exxon stock has been estimated as 1.2 by Merrill Lynch using
regression analysis on a sample of historical returns. The Merrill Lynch adjusted beta of Exxon stock would be ___________.
A) 1.20
B) 1.32
C) 1.13
D) 1.0
E) none of the above
Answer: C Difficulty: Moderate
Rationale: Adjusted beta = 2/3 sample beta + 1/3(1); = 2/3(1.2) + 1/3 = 1.13.
15. Assume that stock market returns do not resemble a single-index structure. An
investment fund analyzes 100 stocks in order to construct a mean-variance efficient portfolio constrained by 100 investments. They will need to calculate _____________ expected returns and ___________ variances of returns.
A) 100, 100
B) 100, 4950
C) 4950, 100
D) 4950, 4950
E) none of the above
Answer: A Difficulty: Moderate
Rationale: The expected returns of each of the 100 securities must be calculated. In addition, the 100 variances around these returns must be calculated.
16. Assume that stock market returns do not resemble a single-index structure. An
investment fund analyzes 100 stocks in order to construct a mean-variance efficient portfolio constrained by 100 investments. They will need to calculate ____________ covariances.
A) 45
B) 100
C) 4,950
D) 10,000
E) none of the above
Answer: C Difficulty: Moderate
Rationale: (n2 - n)/2 = (10,000 - 100)/2 = 4,950 covariances must be calculated.
17. Assume that stock market returns do follow a single-index structure. An
investment fund analyzes 200 stocks in order to construct a mean-variance efficient portfolio constrained by 200 investments. They will need to calculate ________ estimates of
expected returns and ________ estimates of sensitivity coefficients to the macroeconomic factor.
A) 200; 19,900
B) 200; 200
C) 19,900; 200
D) 19,900; 19.900
E) none of the above
Answer: B Difficulty: Moderate
Rationale: For a single-index model, n(200), expected returns and n(200) sensitivity coefficients to the macroeconomic factor must be estimated.
18. Assume that stock market returns do follow a single-index structure. An
investment fund analyzes 500 stocks in order to construct a mean-variance efficient portfolio constrained by 500 investments. They will need to calculate ________ estimates of firm-specific variances and ________ estimates for the variance of the macroeconomic factor.
A) 500; 1
B) 500; 500
C) 124,750; 1
D) 124,750; 500
E) 250,000; 500
Answer: A Difficulty: Moderate
Rationale: For the single-index model, n(500) estimates of firm-specific variances must be calculated and 1 estimate for the variance of the common macroeconomic factor.
19. Consider the single-index model. The alpha of a stock is 0%. The return on the
market index is 16%. The risk-free rate of return is 5%. The stock earns a return that exceeds the risk-free rate by 11% and there are no firm-specific events affecting the stock performance. The β of the stock is _______.
A) 0.67
B) 0.75
C) 1.0
D) 1.33
E) 1.50
Answer: C Difficulty: Moderate
Rationale: 11% = 0% + b(11%); b = 1.0.
20. Suppose you held a well-diversified portfolio with a very large number of
securities, and that the single index model holds. If the ó of your portfolio was 0.20 and óM was 0.16, the β of the portfolio would be approximately ________.
A) 0.64
B) 0.80
C) 1.25
D) 1.56
E) none of the above
Answer: C Difficulty: Difficult
Rationale: s2p / s2m = b2; (0.2)2/(0.16)2 = 1.56; b = 1.25.
21. Suppose the following equation best describes the evolution of β over time:
βt = 0.25 + 0.75βt-1
If a stock had a β of 0.6 last year, you would forecast the β to be _______ in the coming year.
A) 0.45
B) 0.60
C) 0.70
D) 0.75
E) none of the above
Answer: C Difficulty: Easy
Rationale: 0.25 + 0.75(0.6) = 0.70.
22. Merrill Lynch estimates the index model for a stock using regression analysis
involving total returns. They estimated the intercept in the regression equation at 6% and the β at 0.5. The risk-free rate of return is 12%. The true β of the stock is ________.
A) 0%
B) 3%
C) 6%
D) 9%
E) none of the above
Answer: A Difficulty: Difficult
Rationale: 6% = a + 12% (1 - 0.5); a = 0%.
23. The 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 _________.
A) 0.2025
B) 0.2500
C) 0.4500
D) 0.8100
E) none of the above
Answer: C Difficulty: Difficult
Rationale: R2 = b2s2M / s2;0.25 = [(0.81)(0.25)2]/s2; s = 0.4500.
24. The index model for stock B has been estimated with the following result:
RB = 0.01 + 1.1RM + eB
If σM = 0.20 and R2B = 0.50, the standard deviation of the return on stock B is _________.
A) 0.1111
B) 0.2111
C) 0.3111
D) 0.4111
E) none of the above
Answer: C Difficulty: Difficult
Rationale: R2 = b2s2M / s2; 0.5 = [(1.1)2(0.2)2]/s2; s = 0.3111.
25. Suppose you forecast that the market index will earn a return of 15% in the
coming year. Treasury bills are yielding 6%. The unadjusted β of Mobil stock is 1.30. A reasonable forecast of the return on Mobil stock for the coming year is _________ if you use Merrill Lynch adjusted betas.
A) 15.0%
B) 15.5%
C) 16.0%
D) 16.8%
E) none of the above
Answer: D Difficulty: Difficult
Rationale: Adjusted beta = 2/3(1.3) + 1/3 = 1.20; E(rM) = 6% + 1.20(9%) = 16.8%.
26. results:
The index model has been estimated for stocks A and B with the following
RA = 0.01 + 0.5RM + eA
RB = 0.02 + 1.3RM + eB
σM = 0.25 σ(eA) = 0.20 σ(eB) = 0.10
The covariance between the returns on stocks A and B is ___________.
A) 0.0384
B) 0.0406
C) 0.1920
D) 0.0050
E) 0.4000
Answer: B Difficulty: Difficult
Rationale: Cov(RA,RB) = bAbBs2M = 0.5(1.3)(0.25)2 = 0.0406.
27. results:
The index model has been estimated for stocks A and B with the following
RA = 0.01 + 0.8RM + eA
RB = 0.02 + 1.2RM + eB
σM = 0.20 σ(eA) = 0.20 σ (eB) = 0.10
The standard deviation for stock A is __________.
A) 0.0656
B) 0.0676
C) 0.2561
D) 0.2600
E) none of the above
Answer: C Difficulty: Difficult
Rationale: σA = [(0.8)2(0.2)2 + (0.2)2]1/2 = 0.2561.
28. The index model has been estimated for stock A with the following results:
RA = 0.01 + 0.8RM + eA
σM = 0.20 σ(eA) = 0.10
The standard deviation of the return for stock A is __________.
A) 0.0356
B) 0.1886
C) 0.1600
D) 0.6400
E) none of the above
Answer: B Difficulty: Difficult
Rationale: σB = [(.8)2(0.2)2 + (0.1)2]1/2 = 0.1886.
29. Security returns
A) are based on both macro events and firm-specific events.
B) are based on firm-specific events only.
C) are usually positively correlated with each other.
D) A and B.
E) A and C.
Answer: E Difficulty: Easy
Rationale: Stock returns are usually highly positively correlated with each other. Stock
returns are affected by both macro economic events and firm-specific events.
30. The single-index model
A) greatly reduces the number of required calculations, relative to those required
by the Markowitz model.
B) enhances the understanding of systematic versus nonsystematic risk.
C) greatly increases the number of required calculations, relative to those required
by the Markowitz model.
D) A and B.
E) B and C.
Answer: D Difficulty: Easy
Rationale: The single index model both greatly reduces the number of calculations and enhances the understanding of the relationship between systematic and unsystematic risk on security returns.
31. The Security Characteristic Line (SCL)
A) market.
plots the excess return on a security as a function of the excess return on the
B) allows one to estimate the beta of the security.
C) allows one to estimate the alpha of the security.
D) all of the above.
E) none of the above.
Answer: D Difficulty: Easy
Rationale: The security characteristic line, which plots the excess return of the security as a function of the excess return of the market allows one to estimate both the alpha and the beta of the security.
32. The expected impact of unanticipated macroeconomic events on a security's
return during the period is
A) included in the security's expected return.
B) zero.
C) equal to the risk free rate.
D) proportional to the firm's beta.
E) infinite.
Answer: B Difficulty: Moderate
Rationale: The expected value of unanticipated macroeconomic events is zero, because by definition it must average to zero or it would be incorporated into the expected return.
33. Covariances between security returns tend to be
A) positive because of SEC regulations.
B) positive because of Exchange regulations.
C) positive because of economic forces that affect many firms.
D) negative because of SEC regulations
E) negative because of economic forces that affect many firms.
Answer: C Difficulty: Moderate
Rationale: Economic forces such as business cycles, interest rates, and technological changes tend to have similar impacts on many firms.
34. In the single-index model represented by the equation ri = E(ri) + βiF + ei, the
term ei represents
A) the impact of unanticipated macroeconomic events on security i's return.
B) the impact of unanticipated firm-specific events on security i's return.
C) the impact of anticipated macroeconomic events on security i's return.
D) the impact of anticipated firm-specific events on security i's return.
E) the impact of changes in the market on security i's return.
Answer: B Difficulty: Moderate
Rationale: The textbook discusses a model in which macroeconomic events are used as a single index for security returns. The ei term represents the impact of unanticipated firm-specific events. The ei term has an expected value of zero. Only unanticipated events would affect the return.
35. Suppose you are doing a portfolio analysis that includes all of the stocks on the
NYSE. Using a single-index model rather than the Markowitz model _______ the number of inputs needed from _______ to ________.
A) increases, about 1,400, more than 1.4 million
B) increases, about 10,000, more than 125,000
C) reduces, more than 125,000, about 10,000
D) reduces, more than 4 million, about 9,000
E) increases, about 150, more than 1,500
Answer: D Difficulty: Moderate
Rationale: This example is discussed in the textbook. The main point for the students to remember is that the single-index model drastically reduces the number of inputs required.
36. One “cost” of the single-index model is that it
A) is virtually impossible to apply.
B) prohibits specialization of efforts within the security analysis industry.
C) requires forecasts of the money supply.
D) is legally prohibited by the SEC.
E) allows for only two kinds of risk -- macro risk and micro risk.
Answer: E Difficulty: Moderate
Rationale: The single-index model discussed in chapter 10 broke risk into macro and micro portions. In this model other factors such as industry effects.
37. plot of
The Security Characteristic Line (SCL) associated with the single-index model is a
A) the security's returns on the vertical axis and the market index's returns on the
horizontal axis.
B) the market index's returns on the vertical axis and the security's returns on the
horizontal axis.
C) the security's excess returns on the vertical axis and the market index's excess
returns on the horizontal axis.
D) the market index's excess returns on the vertical axis and the security's excess
returns on the horizontal axis.
E) the security's returns on the vertical axis and Beta on the horizontal axis.
Answer: C Difficulty: Moderate
Rationale: The student needs to remember that it is the excess returns that are plotted and that the security's returns are plotted as a dependent variable.
38. The idea that there is a limit to the reduction of portfolio risk due to
diversification is
A) contradicted by both the CAPM and the single-index model.
B) contradicted by the CAPM.
C) contradicted by the single-index model.
D) supported in theory, but not supported empirically.
E) supported both in theory and by empirical evidence.
Answer: E Difficulty: Moderate
Rationale: The benefits of diversification are limited to the level of systematic risk. Figure 8.1 shows this concept graphically.
39. In their study about predicting beta coefficients, which of the following did
Rosenberg and Guy find to be factors that influence beta?
I)industry group
II) variance of cash flow
III) dividend yield
IV) growth in earnings per share
A) I and II
B) I and III
C) I, II, and III
D) I, II, and IV
E) I, II, III, and IV
Answer: E Difficulty: Moderate
Rationale: All of the factors mentioned, as well as variance of earnings, firm size, and debt-to-asset ratio, were found to help predict betas.
40. If a firm's beta was calculated as 1.6 in a regression equation, Merrill Lynch would
state the adjusted beta at a number
A) less than 0.6 but greater than zero.
B) between 0.6 and 1.0.
C) between 1.0 and 1.6.
D) greater than 1.6.
E) zero or less.
Answer: C Difficulty: Moderate
Rationale: Betas, on average, equal one; thus, betas over time regress toward the mean, or 1. Therefore, if historic betas are more than 1, adjusted betas are between 1 and the calculated beta.
41. The beta of a stock has been estimated as 1.8 by Merrill Lynch using regression
analysis on a sample of historical returns. The Merrill Lynch adjusted beta of the stock
would be ___________.
A) 1.20
B) 1.53
C) 1.13
D) 1.0
E) none of the above
Answer: B Difficulty: Moderate
Rationale: Adjusted beta = 2/3 sample beta + 1/3(1); = 2/3(1.8) + 1/3 = 1.53.
42. Assume that stock market returns do not resemble a single-index structure. An
investment fund analyzes 40 stocks in order to construct a mean-variance efficient portfolio constrained by 40 investments. They will need to calculate _____________ expected returns and ___________ variances of returns.
A) 100, 100
B) 40, 40
C) 4950, 100
D) 4950, 4950
E) none of the above
Answer: B Difficulty: Moderate
Rationale: The expected returns of each of the 40 securities must be calculated. In addition, the 40 variances around these returns must be calculated.
43. Assume that stock market returns do not resemble a single-index structure. An
investment fund analyzes 40 stocks in order to construct a mean-variance efficient portfolio
constrained by 40 investments. They will need to calculate ____________ covariances.
A) 45
B) 780
C) 4,950
D) 10,000
E) none of the above
Answer: B Difficulty: Moderate
Rationale: (n2 - n)/2 = (1,600 - 40)/2 = 780 covariances must be calculated.
44. Assume that stock market returns do follow a single-index structure. An
investment fund analyzes 60 stocks in order to construct a mean-variance efficient portfolio constrained by 60 investments. They will need to calculate ________ estimates of expected returns and ________ estimates of sensitivity coefficients to the macroeconomic factor.
A) 200; 19,900
B) 200; 200
C) 60; 60
D) 19,900; 19.900
E) none of the above
Answer: C Difficulty: Moderate
Rationale: For a single-index model, n(60), expected returns and coefficients to the macroeconomic factor must be estimated.
sensitivity n(60)
45. Consider the single-index model. The alpha of a stock is 0%. The return on the
market index is 10%. The risk-free rate of return is 3%. The stock earns a return that exceeds the risk-free rate by 11% and there are no firm-specific events affecting the stock performance. The β of the stock is _______.
A) 0.64
B) 0.75
C) 1.17
D) 1.33
E) 1.50
Answer: A Difficulty: Moderate
Rationale: 7% = 0% + b(11%); b = 0.636.
46. Suppose you held a well-diversified portfolio with a very large number of
securities, and that the single index model holds. If the σ of your portfolio was 0.25 and σM was 0.21, the β of the portfolio would be approximately ________.
A) 0.64
B) 1.19
C) 1.25
D) 1.56
E) none of the above
Answer: B Difficulty: Difficult
Rationale: s2p / s2m = b2; (0.25)2/(0.21)2 = 1.417; b = 1.19.
47. Suppose you held a well-diversified portfolio with a very large number of
securities, and that the single index model holds. If the σ of your portfolio was 0.18 and σM was 0.22, the β of the portfolio would be approximately ________.
A) 0.64
B) 1.19
C) 0.82
D) 1.56
E) none of the above
Answer: C Difficulty: Difficult
Rationale: s2p / s2m = b2; (0.18)2/(0.22)2 = 0.669; b = 0.82.
48. Suppose the following equation best describes the evolution of β over time:
ât = 0.4 + 0.6βt-1
If a stock had a β of 0.9 last year, you would forecast the β to be _______ in the coming year.
A) 0.45
B) 0.60
C) 0.70
D) 0.94
E) none of the above
Answer: D Difficulty: Easy
Rationale: 0.4 + 0.6(0.9) = 0.94.
49. Suppose the following equation best describes the evolution of β over time:
β t = 0.3 + 0.2βt-1
If a stock had a β of 0.8 last year, you would forecast the β to be _______ in the coming year.
A) 0.46
B) 0.60
C) 0.70
D) 0.94
E) none of the above
Answer: A Difficulty: Easy
Rationale: 0.3 + 0.2(0.8) = 0.46.
50. The index model for stock A has been estimated with the following result:
RA = 0.01 + 0.94RM + eA
If σM = 0.30 and R2A = 0.28, the standard deviation of return of stock A is _________.
A) 0.2025
B) 0.2500
C) 0.4500
D) 0.5329
E) none of the above
Answer: D Difficulty: Difficult
Rationale: R2 = b2s2M / s2; 0.28 = [(0.94) 2(0.30) 2] / .28; s = 0.5329.
51. 30. A reasonable forecast of the return on Mobil stock for the coming year is
_________ if you use Merrill Lynch adjusted betas.
A) 15.0%
B) 15.5%
C) 16.0%
D) 14.6%
E) none of the above
Answer: D Difficulty: Difficult
Rationale: Adjusted beta = 2/3(1.5) + 1/3 = 1.33; E(rM) = 4% + 1.33(8%) = 14.6%.
52. results:
The index model has been estimated for stocks A and B with the following
RA = 0.01 + 0.8RM + eA
RB = 0.02 + 1.1RM + eB
σM = 0.30 σ (eA) = 0.20 σ (eB) = 0.10
The covariance between the returns on stocks A and B is ___________.
A) 0.0384
B) 0.0406
C) 0.1920
D) 0.0050
E) 0.0792
Answer: E Difficulty: Difficult
Rationale: Cov(RA,RB) = bAbBs2M = 0.8(1.1)(0.30)2 = 0.0792.
53. If a firm's beta was calculated as 1.35 in a regression equation, Merrill Lynch
would state the adjusted beta at a number
A) less than 1.35
B) between 0.0 and 1.0.
C) between 1.0 and 1.35.
D) greater than 1.35.
E) zero or less.
Answer: C Difficulty: Moderate
Rationale: Betas, on average, equal one; thus, betas over time regress toward the mean, or 1. Therefore, if historic betas are less than 1, adjusted betas are between 1 and the calculated beta.
54. The beta of a stock has been estimated as 1.4 by Merrill Lynch using regression
analysis on a sample of historical returns. The Merrill Lynch adjusted beta of the stock would be ___________.
A) 1.27
B) 1.32
C) 1.13
D) 1.0
E) none of the above
Answer: A Difficulty: Moderate
Rationale: Adjusted beta = 2/3 sample beta + 1/3(1); = 2/3(1.4) + 1/3 = 1.27.
55. The beta of a stock has been estimated as 0.85 by Merrill Lynch using regression
analysis on a sample of historical returns. The Merrill Lynch adjusted beta of the stock would be ___________.
A) 1.01
B) 0.95
C) 1.13
D) 0.90
E) none of the above
Answer: D Difficulty: Moderate
Rationale: Adjusted beta = 2/3 sample beta + 1/3(1); = 2/3(0.85) + 1/3 = 0.90.
56. Assume that stock market returns do not resemble a single-index structure. An
investment fund analyzes 125 stocks in order to construct a mean-variance efficient portfolio constrained by 125 investments. They will need to calculate _____________ expected returns and ___________ variances of returns.
A) 125, 125
B) 125, 15,625
C) 15,625, 125
D) 15,625, 15,625
E) none of the above
Answer: A Difficulty: Moderate
Rationale: The expected returns of each of the 125 securities must be calculated. In addition, the 125 variances around these returns must be calculated.
57. Assume that stock market returns do not resemble a single-index structure. An
investment fund analyzes 125 stocks in order to construct a mean-variance efficient portfolio constrained by 125 investments. They will need to calculate ____________ covariances.
A) 90
B) 125
C) 7,750
D) 15,625
E) none of the above
Answer: C Difficulty: Moderate
Rationale: (n2 - n)/2 = (15,625 - 125)/2 = 7,750 covariances must be calculated.
58. Assume that stock market returns do not resemble a single-index structure. An
investment fund analyzes 132 stocks in order to construct a mean-variance efficient portfolio constrained by 132 investments. They will need to calculate ____________
covariances.
A) 100
B) 132
C) 4,950
D) 8,646
E) none of the above
Answer: D Difficulty: Moderate
Rationale: (n2 - n)/2 = (17,424 - 132)/2 = 8,646 covariances must be calculated.
59. Assume that stock market returns do follow a single-index structure. An
investment fund analyzes 217 stocks in order to construct a mean-variance efficient portfolio constrained by 217 investments. They will need to calculate ________ estimates of expected returns and ________ estimates of sensitivity coefficients to the macroeconomic factor.
A) 217; 47,089
B) 217; 217
C) 47,089; 217
D) 47,089; 47,089
E) none of the above
Answer: B Difficulty: Moderate
Rationale: For a single-index model, n(217), expected returns and n(217) sensitivity coefficients to the macroeconomic factor must be estimated.
60. Assume that stock market returns do follow a single-index structure. An
investment fund analyzes 500 stocks in order to construct a mean-variance efficient portfolio constrained by 750 investments. They will need to calculate ________ estimates of firm-specific variances and ________ estimates for the variance of the macroeconomic factor.
A) 750; 1
B) 750; 750
C) 124,750; 1
D) 124,750; 750
E) 562,500; 750
Answer: A Difficulty: Moderate
Rationale: For the single-index model, n(750) estimates of firm-specific variances must be calculated and 1 estimate for the variance of the common macroeconomic factor.
61. Consider the single-index model. The alpha of a stock is 0%. The return on the
market index is 10%. The risk-free rate of return is 5%. The stock earns a return that
exceeds the risk-free rate by 5% and there are no firm-specific events affecting the stock performance. The β of the stock is _______.
A) 0.67
B) 0.75
C) 1.0
D) 1.33
E) 1.50
Answer: C Difficulty: Moderate
Rationale: 5% = 0% + b(5%); b = 1.0.
62. Suppose you held a well-diversified portfolio with a very large number of
securities, and that the single index model holds. If the ó of your portfolio was 0.24 and σM was 0.18, the β of the portfolio would be approximately ________.
A) 0.64
B) 1.33
C) 1.25
D) 1.56
E) none of the above
Answer: B Difficulty: Difficult
Rationale: s2p / s2m = b2; (0.24)2/(0.18)2 = 1.78; b = 1.33.
63. Suppose you held a well-diversified portfolio with a very large number of
securities, and that the single index model holds. If the σ of your portfolio was 0.14 and σM was 0.19, the β of the portfolio would be approximately ________.
A) 0.74
B) 0.80
C) 1.25
D) 1.56
E) none of the above
Answer: A Difficulty: Difficult
Rationale: s2p / s2m = b2; (0.14)2/(0.19)2 = 0.54; b = 0.74.
64. Suppose the following equation best describes the evolution of ββt = 0.30 + 0.70βt-1
over time:
If a stock had a β of 0.82 last year, you would forecast the β to be _______ in the coming year.
A) 0.91
B) 0.77
C) 0.63
D) 0.87
E) none of the above
Answer: D Difficulty: Easy
Rationale: 0.30 + 0.70(0.82) = 0.874.
65. results:
The index model has been estimated for stocks A and B with the following
RA = 0.03 + 0.7RM + eA
RB = 0.01 + 0.9RM + eB
σM = 0.35 σ(eA) = 0.20 σ(eB) = 0.10
The covariance between the returns on stocks A and B is ___________.
A) 0.0384
B) 0.0406
C) 0.1920
D) 0.0772
E) 0.4000
Answer: D Difficulty: Difficult
Rationale: Cov(RA,RB) = bAbBs2M = 0.7(0.9)(0.35)2 = 0.0772.
Essay Questions
66. Discuss the advantages of the single-index model over the Markowitz model
in terms of numbers of variable estimates required and in terms of understanding risk relationships.
Difficulty: Moderate
Answer:
For a 50 security portfolio, the Markowitz model requires the following parameter estimates:
n = 50 estimates of expected returns;
n = 50 estimates of variances;
(n2 - n)/2 = 1,225 estimates of covariances;
1,325 estimates.
For a 50 security portfolio, the single-index model requires the following parameter
estimates:
n = 50 estimates of expected excess returns, E(R);
n = 50 estimates of sensitivity coefficients, βi;
n = 50 estimates of the firm-specific variances, σ2(ei);
1 estimate for the variance of the common macroeconomic factor, σ2M;
or (3n + 1) estimates.
In addition, the single-index model provides further insight by recognizing that different firms have different sensitivities to macroeconomic events. The model also summarizes the distinction between macroeconomic and firm-specific risk factors.
This question is designed to ascertain that the student understands the significant simplifications and improvements offered by the single-index model over the Markowitz model.
67. Discuss the security characteristic line (SCL).
Difficulty: Moderate
Answer:
The security characteristic line (SCL) is the result of estimating the regression equation of the single-index model. The SCL is a plot of the typical excess returns on a security over the risk-free rate as a function of the excess return on the market. The slope of the SCL is the beta of the security, and they-intercept, alpha, is the excess return on the security when the excess market return is zero.
This question is designed to ascertain that the student understands how the SCL is obtained, as this relationship is the one that is most frequently used by published information services for the estimation of the regression parameters, alpha and beta.
68. Discuss the \"adjusted betas\" published by Merrill Lynch in Security Risk Evaluation.
Difficulty: Easy
Answer:
Over time, security betas move toward 1, as the average beta of all securities is 1 and variables regress toward the mean. Thus, if a historic beta has been greater than 1, the chances are that in the future, this beta will be less than the historic beta. The opposite relationship will be observed if the historic beta has been less than one. Merrill Lynch uses the following relationship to calculate \"adjusted betas\".
Adjusted beta = 2/3 (sample beta) + 1/3 (1).
This question is important, as many published sources quote an \"adjusted beta\" with no explanation as to how such a number was obtained. The regression toward the mean is a valid statistical concept and it is important that the student understands that this concept represents the theory behind the possibly undocumented \"adjusted betas\".
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