1. The McGraw-Hill Companies, Inc., 2000
Principles of Corporate Finance
Brealey and Myers Sixth Edition
Risk and Return
Slides by
Matthew Will
Chapter 8
Irwin/McGraw Hill
The McGraw-Hill Companies, Inc., 2000

2. Topics Covered Markowitz Portfolio Theory Risk and Return Relationship
Testing the CAPM
CAPM Alternatives

3. Markowitz Portfolio Theory
Combining stocks into portfolios can reduce standard deviation below the level obtained from a simple weighted average calculation.
Correlation coefficients make this possible.
The various weighted combinations of stocks that create this standard deviations constitute the set of efficient portfolios.

4. Markowitz Portfolio Theory
Price changes vs. Normal distribution
Microsoft - Daily % change
# of Days (frequency)
Daily % Change

5. Markowitz Portfolio Theory
Price changes vs. Normal distribution
Microsoft - Daily % change
# of Days (frequency)
Daily % Change

6. Markowitz Portfolio Theory
Standard Deviation VS. Expected Return
Investment C
% probability
% return

7. Markowitz Portfolio Theory
Standard Deviation VS. Expected Return
Investment D
% probability
% return

8. Markowitz Portfolio Theory
Expected Returns and Standard Deviations vary given different weighted combinations of the stocks.
Expected Return (%)
McDonald’s
45% McDonald’s
Bristol-Myers Squibb
Standard Deviation

9. Efficient Frontier
Each half egg shell represents the possible weighted combinations for two stocks.
The composite of all stock sets constitutes the efficient frontier.
Expected Return (%)
Standard Deviation

10. Efficient Frontier T rf S
Lending or Borrowing at the risk free rate (rf) allows us to exist outside the efficient frontier.
Expected Return (%) T
Lending Borrowing rf S
Standard Deviation

11. Efficient Frontier Example Correlation Coefficient = .4
Stocks s % of Portfolio Avg Return
ABC Corp % %
Big Corp % %
Standard Deviation = weighted avg = 33.6
Standard Deviation = Portfolio = 28.1
Return = weighted avg = Portfolio = 17.4%

12. Efficient Frontier Let’s Add stock New Corp to the portfolio
Example Correlation Coefficient = .4
Stocks s % of Portfolio Avg Return
ABC Corp % %
Big Corp % %
Standard Deviation = weighted avg = 33.6
Standard Deviation = Portfolio = 28.1
Return = weighted avg = Portfolio = 17.4%
Let’s Add stock New Corp to the portfolio

13. Efficient Frontier Example Correlation Coefficient = .3
Stocks s % of Portfolio Avg Return
Portfolio % %
New Corp % %
NEW Standard Deviation = weighted avg = 31.80
NEW Standard Deviation = Portfolio =
NEW Return = weighted avg = Portfolio = 18.20%

14. Efficient Frontier NOTE: Higher return & Lower risk
Example Correlation Coefficient = .3
Stocks s % of Portfolio Avg Return
Portfolio % %
New Corp % %
NEW Standard Deviation = weighted avg = 31.80
NEW Standard Deviation = Portfolio =
NEW Return = weighted avg = Portfolio = 18.20%
NOTE: Higher return & Lower risk

15. Efficient Frontier NOTE: Higher return & Lower risk
Example Correlation Coefficient = .3
Stocks s % of Portfolio Avg Return
Portfolio % %
New Corp % %
NEW Standard Deviation = weighted avg = 31.80
NEW Standard Deviation = Portfolio =
NEW Return = weighted avg = Portfolio = 18.20%
NOTE: Higher return & Lower risk
How did we do that?

16. Efficient Frontier NOTE: Higher return & Lower risk
Example Correlation Coefficient = .3
Stocks s % of Portfolio Avg Return
Portfolio % %
New Corp % %
NEW Standard Deviation = weighted avg = 31.80
NEW Standard Deviation = Portfolio =
NEW Return = weighted avg = Portfolio = 18.20%
NOTE: Higher return & Lower risk
How did we do that? DIVERSIFICATION

17. Efficient Frontier
Return B A
Risk (measured as s)

18. Efficient Frontier
Return B AB A
Risk

19. Efficient Frontier
Return B N AB A
Risk

20. Efficient Frontier
Return B
ABN N AB A
Risk

21. Efficient Frontier Goal is to move up and left. Return WHY? B ABN N AB
Risk

22. Efficient Frontier
Return
Low Risk
High Return
Risk

23. Efficient Frontier Return Low Risk High Return High Risk High Return

24. Efficient Frontier Return Low Risk High Return High Risk High Return
Low Return
Risk

25. Efficient Frontier Return Low Risk High Return High Risk High Return
Low Return
High Risk
Low Return
Risk

26. Efficient Frontier Return Low Risk High Return High Risk High Return
Low Return
High Risk
Low Return
Risk

27. Efficient Frontier
Return B
ABN N AB A
Risk

28. . Security Market Line rf Return Efficient Portfolio Risk Free

29. . Security Market Line rf Return Market Return = rm
Efficient Portfolio
Risk Free
Return = rf
Risk

30. . Security Market Line rf Return Market Return = rm
Efficient Portfolio
Risk Free
Return = rf
Risk

31. . Security Market Line rf Return Market Return = rm
Efficient Portfolio
Risk Free
Return = rf
BETA
1.0

32. Security Market Line rf Return Market Return = rm
Security Market Line (SML)
Risk Free
Return = rf
BETA
1.0

33. Security Market Line rf SML Equation = rf + B ( rm - rf ) Return SML
BETA
1.0
SML Equation = rf + B ( rm - rf )

34. Capital Asset Pricing Model
R = rf + B ( rm - rf )
CAPM

35. Beta vs. Average Risk Premium
Testing the CAPM
Beta vs. Average Risk Premium
Avg Risk Premium
SML 30 20 10
Investors
Market Portfolio
Portfolio Beta
1.0

36. Beta vs. Average Risk Premium
Testing the CAPM
Beta vs. Average Risk Premium
Avg Risk Premium 30 20 10
SML
Investors
Market Portfolio
Portfolio Beta
1.0

37. Company Size vs. Average Return
Testing the CAPM
Company Size vs. Average Return
Average Return (%)
Company size
Smallest
Largest

38. Book-Market vs. Average Return
Testing the CAPM
Book-Market vs. Average Return
Average Return (%)
Book-Market Ratio
Highest
Lowest

39. Consumption Betas vs Market Betas
Stocks
(and other risky assets)
Wealth = market
portfolio

40. Consumption Betas vs Market Betas
Stocks
(and other risky assets)
Market risk makes wealth uncertain.
Wealth = market
portfolio

41. Consumption Betas vs Market Betas
Stocks
(and other risky assets)
Market risk makes wealth uncertain.
Standard
CAPM
Wealth = market
portfolio

42. Consumption Betas vs Market Betas
Stocks
(and other risky assets)
Stocks
(and other risky assets)
Market risk makes wealth uncertain.
Standard
CAPM
Wealth = market
portfolio
Consumption

43. Consumption Betas vs Market Betas
Stocks
(and other risky assets)
Stocks
(and other risky assets)
Wealth is uncertain
Market risk makes wealth uncertain.
Standard
CAPM
Wealth
Consumption is uncertain
Wealth = market
portfolio
Consumption

44. Consumption Betas vs Market Betas
Stocks
(and other risky assets)
Stocks
(and other risky assets)
Wealth is uncertain
Market risk makes wealth uncertain.
Consumption
CAPM
Standard
CAPM
Wealth
Consumption is uncertain
Wealth = market
portfolio
Consumption

45. Arbitrage Pricing Theory
Alternative to CAPM
Expected Risk
Premium = r - rf
= Bfactor1(rfactor1 - rf) + Bf2(rf2 - rf) + …

46. Arbitrage Pricing Theory
Alternative to CAPM
Expected Risk
Premium = r - rf
= Bfactor1(rfactor1 - rf) + Bf2(rf2 - rf) + …
Return = a + bfactor1(rfactor1) + bf2(rf2) + …

47. Arbitrage Pricing Theory
Estimated risk premiums for taking on risk factors
( )