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" 4/16/2010 Chapter 6. Ch 06 P14 Build a Mode...

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" 4/16/2010 Chapter 6. Ch 06 P14 Build a Model a. Use the data given to calculate annual returns for Bartman, Reynolds, and the Market Index, and then calculate average returns over the five-year period. (Hint: Remember, returns are calculated by subtracting the beginning price from the ending price to get the capital gain or loss, adding the dividend to the capital gain or loss, and dividing the result by the beginning price. Assume that dividends are already included in the index. Also, you cannot calculate the rate of return for 2005 because you do not have 2004 data.) Data as given in the problem are shown below: Bartman Industries Reynolds Incorporated Market Index Year Stock Price Dividend Stock Price Dividend Includes Divs. 2010 $17.250 $1.150 $48.750 $3.000 11,663.98 2009 14.750 1.060 52.300 2.900 8,785.70 2008 16.500 1.000 48.750 2.750 8,679.98 2007 10.750 0.950 57.250 2.500 6,434.03 2006 11.375 0.900 60.000 2.250 5,602.28 2005 7.625 0.850 55.750 2.000 4,705.97 We now calculate the rates of return for the two companies and the index: Bartman Reynolds Index 2010 2009 2008 2007 2006 Average Note: To get the average, you could get the column sum and divide by 5, but you could also use the function wizard, fx. Click fx, then statistical, then Average, and then use the mouse to select the proper range. Do this for Bartman and then copy the cell for the other items. b. Calculate the standard deviation of the returns for Bartman, Reynolds, and the Market Index. (Hint: Use the sample standard deviation formula given in the chapter, which corresponds to the STDEV function in Excel.) Use the function wizard to calculate the standard deviations. Bartman Reynolds Index Standard deviation of returns c. Now calculate the coefficients of variation Bartman, Reynolds, and the Market Index. Bartman Reynolds Index Coefficient of Variation d. Construct a scatter diagram graph that shows Bartman?s and Reynolds? returns on the vertical axis and the Market Index?s returns on the horizontal axis. It is easiest to make scatter diagrams with a data set that has the X-axis variable in the left column, so we reformat the returns data calculated above and show it just below. Year Index Bartman Reynolds 2010 0.0% 0.0% 0.0% 2009 0.0% 0.0% 0.0% 2008 0.0% 0.0% 0.0% 2007 0.0% 0.0% 0.0% 2006 0.0% 0.0% 0.0% To make the graph, we first selected the range with the returns and the column heads, then clicked the chart wizard, then choose the scatter diagram without connected lines. That gave us the data points. We then used the drawing toolbar to make free-hand ("by eye") regression lines, and changed the lines color and weights to match the dots. e. Estimate Bartman?s and Reynolds?s betas as the slopes of regression lines with stock returns on the vertical axis (y-axis) and market return on the horizontal axis (x-axis). (Hint: use Excel?s SLOPE function.) Are these betas consistent with your graph? Bartman's beta = Reynolds' beta = f. The risk-free rate on long-term Treasury bonds is 6.04%. Assume that the market risk premium is 5%. What is the expected return on the market? Now use the SML equation to calculate the two companies' required returns. Market risk premium (RPM) = 5.000% Risk-free rate = 6.040% Expected return on market = Risk-free rate + Market risk premium = 6.040% + 5.000% = 11.040% Required return = Bartman: Required return = = Reynolds: Required return = = g. If you formed a portfolio that consisted of 50% Bartman stock and 50% Reynolds stock, what would be its beta and its required return? The beta of a portfolio is simply a weighted average of the betas of the stocks in the portfolio, so this portfolio's beta would be: Portfolio beta = h. Suppose an investor wants to include Bartman Industries? stock in his or her portfolio. Stocks A, B, and C are currently in the portfolio, and their betas are 0.769, 0.985, and 1.423, respectively. Calculate the new portfolio?s required return if it consists of 25% of Bartman, 15% of Stock A, 40% of Stock B, and 20% of Stock C. Beta Portfolio Weight Bartman 25% Stock A 0.769 15% Stock B 0.985 40% Stock C 1.423 20% 100% Portfolio Beta = Required return on portfolio: = Risk-free rate + Market Risk Premium * * Beta = = ",dear tutor I am not able to retrieve this zip file Finance-7809928.zip please resend in excel format Thank you,Dear Tutor there is nothing in the zip folder Finance-7809928.zip your help is greatly appreciated Gus

 

Paper#4045 | Written in 18-Jul-2015

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