1. Portfolio theory and the capital asset pricing model8
Portfolio theory and the capital asset pricing model
McGraw-Hill/Irwin
Copyright © 2014 by The McGraw-Hill Companies, Inc. All rights reserved.

2. 8-1 harry markowitz and the birth of portfolio theory
Combining stocks into portfolios can reduce standard deviation below simple weighted- average calculation
Correlation coefficients make possible
Various weighted combinations of stocks that create specific standard deviation constitute set of efficient portfolios

3. Figure 8.1 daily price changes, ibm

4. Figure 8.2a standard deviation versus expected return

5. Figure 8.2b standard deviation versus expected return

6. Figure 8.2c standard deviation versus expected return

7. FIGURE 8.3 EXPECTED RETURN AND STANDARD DEVIATION, HEINZ, AND EXXON MOBIL

8. Table 8.1 examples of efficient portfolios
Efficient Portfolios—Percentages
Allocated to Each Stock
Stock
Expected Return
Standard Deviation A B C
Dow Chemical
16.4%
40.2%
100 6
Bank of America
14.3
30.9 10
Ford
15.0
40.4 8
Heinz
6.0
14.6 11 35
IBM
9.1
19.8 18 12
Newmont Mining
8.9
29.2 1
Pfizer
8.0
20.8
Starbucks
10.4
26.2
Walmart
6.3
13.8 9 42
ExxonMobil
10.0
21.9
Expected portfolio return
16.4
6.7
Portfolio standard deviation
40.2
18.4
11.8

9. Figure 8.4 four efficient portfolios from ten stocks

10. 8-1 harry markowitz and the birth of portfolio theory
Efficient Frontier
Each half-ellipse represents possible weighted combinations for two stocks
Composite of all stock sets constitutes efficient frontier
Expected return (%)
Standard deviation

11. Figure 8.5 lending and borrowing

12. 8-1 harry markowitz and the birth of portfolio theory
Example Correlation Coefficient = .18
Stocks s % of Portfolio Average Return
Heinz % %
ExxonMobil % %
Standard deviation = weighted average = 17.52
Standard deviation = portfolio = 15.1
Return = weighted average = portfolio = 7.6%
Higher return, lower risk through diversification

13. 8-1 harry markowitz and the birth of portfolio theory
Example Correlation Coefficient = .4
Stocks s % of Portfolio Average Return
ABC Corp % %
Big Corp % %
Standard deviation = weighted average = 33.6
Standard deviation = portfolio = 28.1
Return = weighted average = portfolio = 17.4%

14. 8-1 harry markowitz and the birth of portfolio theory
Example, continued Correlation Coefficient = .3
Add new stock to portfolio
Stocks s % of Portfolio Average Return
Portfolio % %
New Corp % %
Standard deviation = weighted average = 31.80
Standard deviation = portfolio =
Return = weighted average = portfolio = 18.20%

15. 8-1 harry markowitz and the birth of portfolio theory
Return
Risk (measured as s)

16. 8-1 harry markowitz and the birth of portfolio theory
Return
Risk B AB

17. 8-1 harry markowitz and the birth of portfolio theory
Return
Risk AB

18. 8-1 harry markowitz and the birth of portfolio theory
Return
Risk AB
ABN

19. 8-1 harry markowitz and the birth of portfolio theory
Goal is to move up and left—less risk, more return A B N
Return
Risk AB
ABN

20. 8-1 harry markowitz and the birth of portfolio theory
Sharpe Ratio
Ratio of risk premium to standard deviation

21. 8-1 harry markowitz and the birth of portfolio theory
Return
Risk
Low Risk
High Return
High Risk
Low Return

22. 8-1 harry markowitz and the birth of portfolio theory
Return
Risk
Low Risk
High Return
High Risk
Low Return

23. 8-1 harry markowitz and the birth of portfolio theory
Return
Risk A B N AB
ABN

24. 8-2 the relationship between risk and return. rf
Market portfolio
Market return = rm

25. Figure 8.6 security market line
Return . rf
Market portfolio
Market return = rm
BETA
1.0
Security market line
(SML)

26. 8-2 the relationship between risk and return
BETA rf
1.0
SML
SML Equation: rf + β(rm − rf)

27. 8-2 the relationship between risk and return
Capital Asset Pricing Model (CAPM)

28. Table 8.2 Estimates of Returns
Returns estimates in January 2012 based on capital asset pricing model. Assume 2% for interest rate rf and 7% for expected risk premium rm − rf.
Stock
Beta
Expected Return
Dow Chemical
1.78
14.50
Bank of America
1.54
12.80
Ford
1.53
12.70
ExxonMobil
0.98
8.86
Starbucks
0.95
8.68
IBM
0.80
7.62
Newmont Mining
0.75
7.26
Pfizer
0.66
6.63
Walmart
0.42
4.92
Heinz
0.40
4.78

29. Figure 8.7 security market line equilibrium
In equilibrium, no stock can lie below the security market line

30. Figure 8.8 capital asset pricing model

31. Figure 8.9b beta versus average return

32. Figure 8.10 return versus book-to-market

33. 8-4 Alternative Theories
Alternative to CAPM

34. 8-4 Alternative Theories
Estimated risk premiums ( )

35. 8-4 Alternative Theories
Three-Factor Model
Identify macroeconomic factors that could affect stock returns
Estimate expected risk premium on each factor ( rfactor1 − rf, etc.)
Measure sensitivity of each stock to factors ( b1, b2, etc.)

36. Table 8.3 expected equity returns