1. 7-1 Chapter 7 Charles P. Jones, Investments: Analysis and Management, Tenth Edition, John Wiley & Sons Prepared by G.D. Koppenhaver, Iowa State University Portfolio Theory

2. 7-2 Investment Decisions Involve uncertainty Focus on expected returns  Estimates of future returns needed to consider and manage risk Goal is to reduce risk without affecting returns  Accomplished by building a portfolio  Diversification is key

3. 7-3 Dealing With Uncertainty Risk that an expected return will not be realized Investors must think about return distributions, not just a single return Probabilities weight outcomes  Should be assigned to each possible outcome to create a distribution  Can be discrete or continuous

4. 7-4 Calculating Expected Return Expected value  The single most likely outcome from a particular probability distribution  The weighted average of all possible return outcomes  Referred to as an ex ante or expected return

5. 7-5

6. 7-6 Calculating Risk Variance and standard deviation used to quantify and measure risk  Measures the spread in the probability distribution  Variance of returns: σ² = (R i - E(R))²pr i  Standard deviation of returns: σ =(σ²) 1/2  Ex ante rather than ex post σ relevant

7. 7-7 (1) Posible return (2) Probability (3) (1) x (2) (4) Ri – E(R) 0,010,20,002-0,0700,00490,00098 0,070,20,014-0,0100,00010,00002 0,080,30,0240,0000,00000,00000 0,100,10,0100,0200,00040,00004 0,150,30,0300,0700,00490,00098 1,000,080=E(R)0,00202

8. 7-8 Portfolio Expected Return Weighted average of the individual security expected returns  Each portfolio asset has a weight, w, which represents the percent of the total portfolio value

9. Example 7-4 Consider a three-stock portofolio consisting of stock G, H and I with expected returns of 12%, 20% and 17%, respectively. Assume that 50% of investable fund is invested in security G, 30% in H, and 20% in I. The expected return on this portofolio is : E(Rp): 0,5(12%) + 0,3(20%) + 0,2(17%) : 15,4% 7-9

10. 7-10 Portfolio Risk Portfolio risk not simply the sum of individual security risks Emphasis on the risk of the entire portfolio and not on risk of individual securities in the portfolio Individual stocks are risky only if they add risk to the total portfolio

11. 7-11 Portfolio Risk Measured by the variance or standard deviation of the portfolio’s return  Portfolio risk is not a weighted average of the risk of the individual securities in the portfolio

12. 7-12 Risk Reduction in Portfolios Assume all risk sources for a portfolio of securities are independent The larger the number of securities the smaller the exposure to any particular risk  “Insurance principle” Only issue is how many securities to hold

13. 7-13 Risk Reduction in Portfolios Random diversification  Diversifying without looking at relevant investment characteristics  Marginal risk reduction gets smaller and smaller as more securities are added A large number of securities is not required for significant risk reduction International diversification benefits

14. Portfolio Risk and Diversification  p % 35 20 0 Number of securities in portfolio 10203040......100+ Portfolio risk Market Risk

15. 7-15 Markowitz Diversification Non-random diversification  Active measurement and management of portfolio risk  Investigate relationships between portfolio securities before making a decision to invest  Takes advantage of expected return and risk for individual securities and how security returns move together

16. 7-16 Measuring Portfolio Risk Needed to calculate risk of a portfolio:  Weighted individual security risks Calculated by a weighted variance using the proportion of funds in each security For security i: (wi × i)2  Weighted comovements between returns Return covariances are weighted using the proportion of funds in each security For securities i, j: 2wiwj × ij

17. 7-17 Correlation Coefficient Statistical measure of association  mn = correlation coefficient between securities m and n   mn = +1.0 = perfect positive correlation   mn = -1.0 = perfect negative (inverse) correlation   mn = 0.0 = zero correlation

18. 7-18 Correlation Coefficient When does diversification pay?  With perfectly positive correlated securities? Risk is a weighted average, therefore there is no risk reduction  With zero correlation correlation securities?  With perfectly negative correlated securities?

19. 7-19 Covariance Absolute measure of association  Not limited to values between -1 and +1  Sign interpreted the same as correlation  Correlation coefficient and covariance are related by the following equations:

20. 7-20 Calculating Portfolio Risk Encompasses three factors  Variance (risk) of each security  Covariance between each pair of securities  Portfolio weights for each security Goal: select weights to determine the minimum variance combination for a given level of expected return

21. 7-21 Calculating Portfolio Risk Generalizations  the smaller the positive correlation between securities, the better  Covariance calculations grow quickly n(n-1) for n securities  As the number of securities increases: The importance of covariance relationships increases The importance of each individual security’s risk decreases

22. 7-22 Simplifying Markowitz Calculations Markowitz full-covariance model  Requires a covariance between the returns of all securities in order to calculate portfolio variance  n(n-1)/2 set of covariances for n securities Markowitz suggests using an index to which all securities are related to simplify

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