Homework Answers
The correct answer is Stock A is riskier
Because, Since the return have fall away against the market returns
Stock A have more fluctuation than stock B, So the Stock A is riskier to a non diversified investor
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The figures below show plots of monthly excess returns for two stocks plotted against excess returns...
please show work Consider the two (excess return) index-model regression results for stocks A and B....
please show work
Consider the two (excess return) index-model regression results for stocks A and B. The risk-free rate over the period was 5%, and the market's average return was 12%. 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 Stock A 1% + 1.2 (rm -rf 0.599 10.7% 22% Stock B 2% + 0.8(rm -rf) 0.448 19.5% 25.7% a. Calculate the following statistics...
Consider the two (excess return) index-model regression results for stocks A and B. The risk-free rate...
Consider the two (excess return) index-model regression results for stocks A and B. The risk-free rate over the period was 8%, and the market's average return was 13%. Performance is measured using an index model regression on excess returns. Index model regression estimates R-square Residual standard deviation, 0(e) Standard deviation of excess returns Stock A 1% + 1.2(M - rf) 0.659 11.7% 238 Stock B 2% + 0.8(IM - rf) 0.478 20.5% 27.7% a. Calculate the following statistics for each...
Consider the two (excess return) index-model regression results for stocks A and B. The risk-free rate...
Consider the two (excess return) index-model regression results for stocks A and B. The risk-free rate over the period was 4%, and the marker's average return was 11%. Performance is measured using an index model regression on excess returns Index model regression estimates R-square Residual standard deviation, (e) Standard deviation of excess returns Stock A 1% + 1.2M - rf) 2.683 12.15 23.4% Stock 8 2% + 0.8( - rf) 2.49 20.93 28.5% a. Calculate the following statistics for each...
Consider the two (excess return) index-model regression results for stocks A and B. The risk-free rate...
Consider 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.
Consider 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 Stock A...
#05 A Saved Consider the two (excess return) index-model regression results for stocks A and B....
#05 A Saved Consider the two (excess return) index-model regression results for stocks A and B. The risk-free rate over the period was 5%, a 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, ole) Standard deviation of excess returns Stock A 1% + 1.2 (rm -rf) 0.611 10.9% 22.2% Stock B 2% + 0.8(rm -rf) 0.454 19.7% 26.1% a. Calculate the following statistics for...
Consider the two (excess return) index-model regression results for stocks A and B. The risk-free rate...
Consider 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 13%. 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 Stock A 1% + 1.2 (rm -rf) 0.629 11.2% 22.5% Stock B 2% + 0.8(rm -rf) 0.463 20% 26.7% a. Calculate the following statistics for each stock:...
Problem 24-9 Consider the two (excess return) index-model regression results for stocks A and B. The risk-free rate...
Problem 24-9 Consider the two (excess return) index-model regression results for stocks A and B. The risk-free rate over the period was 8%, and the market's average return was 13%. Performance is measured using an index model regression on excess returns. points Index model regression estimates 10 + re) Stock A 1.2(y- 0.659 11.78 238 Stock B 20 + 0.8(EM - 0.478 F Residual standard deviation, die Standard deviation of excess returns a. Calculate the following statistics for each stock...
1.3 (5 points) Two stocks have the following expected returns and standard deviations Stock Stock Expected...
1.3 (5 points) Two stocks have the following expected returns and standard deviations Stock Stock Expected return Standard Deviation A 10% 12% B 15% 20% Consider a portfolio of A and B, and let w, and wg denote the portfolio weights of these two assets, with W + W, =1. Suppose that the correlation between the expected returns on A and B is equal to 0.3. Use these data to construct the portfolio of A and B with the lowest...
3 ways to diversify retirement savings beyond stocks Reluctant to put more of your hard-earned money...
3 ways to diversify retirement savings beyond stocks Reluctant to put more of your hard-earned money aboard the roller coaster known as the stock market? Then it may be a good idea to diversify your retirement savings with other assets, which can reduce your overall risk. Here are three alternative investments that could help you accomplish retirement savings diversification outside the stock market. Just like any investment, each one comes with risks that should be carefully considered before making any...
3 ways to diversify retirement savings beyond stocks Reluctant to put more of your hard-earned money...
3 ways to diversify retirement savings beyond stocks Reluctant to put more of your hard-earned money aboard the roller coaster known as the stock market? Then it may be a good idea to diversify your retirement savings with other assets, which can reduce your overall risk. Here are three alternative investments that could help you accomplish retirement savings diversification outside the stock market. Just like any investment, each one comes with risks that should be carefully considered before making any...
please show work
Consider the two (excess return) index-model regression results for stocks A and B. The risk-free rate over the period was 5%, and the market's average return was 12%. 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 Stock A 1% + 1.2 (rm -rf 0.599 10.7% 22% Stock B 2% + 0.8(rm -rf) 0.448 19.5% 25.7% a. Calculate the following statistics...
Consider the two (excess return) index-model regression results for stocks A and B. The risk-free rate over the period was 8%, and the market's average return was 13%. Performance is measured using an index model regression on excess returns. Index model regression estimates R-square Residual standard deviation, 0(e) Standard deviation of excess returns Stock A 1% + 1.2(M - rf) 0.659 11.7% 238 Stock B 2% + 0.8(IM - rf) 0.478 20.5% 27.7% a. Calculate the following statistics for each...
Consider the two (excess return) index-model regression results for stocks A and B. The risk-free rate over the period was 4%, and the marker's average return was 11%. Performance is measured using an index model regression on excess returns Index model regression estimates R-square Residual standard deviation, (e) Standard deviation of excess returns Stock A 1% + 1.2M - rf) 2.683 12.15 23.4% Stock 8 2% + 0.8( - rf) 2.49 20.93 28.5% a. Calculate the following statistics for each...
Consider 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.
Consider 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 Stock A...
#05 A Saved Consider the two (excess return) index-model regression results for stocks A and B. The risk-free rate over the period was 5%, a 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, ole) Standard deviation of excess returns Stock A 1% + 1.2 (rm -rf) 0.611 10.9% 22.2% Stock B 2% + 0.8(rm -rf) 0.454 19.7% 26.1% a. Calculate the following statistics for...
Consider 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 13%. 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 Stock A 1% + 1.2 (rm -rf) 0.629 11.2% 22.5% Stock B 2% + 0.8(rm -rf) 0.463 20% 26.7% a. Calculate the following statistics for each stock:...
Problem 24-9 Consider the two (excess return) index-model regression results for stocks A and B. The risk-free rate over the period was 8%, and the market's average return was 13%. Performance is measured using an index model regression on excess returns. points Index model regression estimates 10 + re) Stock A 1.2(y- 0.659 11.78 238 Stock B 20 + 0.8(EM - 0.478 F Residual standard deviation, die Standard deviation of excess returns a. Calculate the following statistics for each stock...
1.3 (5 points) Two stocks have the following expected returns and standard deviations Stock Stock Expected return Standard Deviation A 10% 12% B 15% 20% Consider a portfolio of A and B, and let w, and wg denote the portfolio weights of these two assets, with W + W, =1. Suppose that the correlation between the expected returns on A and B is equal to 0.3. Use these data to construct the portfolio of A and B with the lowest...
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