Presentation is loading. Please wait.

Presentation is loading. Please wait.

Introduction to Risk and Return Common stocks 13.0% 9.2% 20.3% Small-company stocks 17.7 13.9 33.9 Long-term corporate bonds 6.1 2.3 8.7 Long-term government.

Published byRudolf Patrick Modified over 8 years ago

Similar presentations

Presentation on theme: "Introduction to Risk and Return Common stocks 13.0% 9.2% 20.3% Small-company stocks 17.7 13.9 33.9 Long-term corporate bonds 6.1 2.3 8.7 Long-term government."— Presentation transcript:

1 Introduction to Risk and Return Common stocks 13.0% 9.2% 20.3% Small-company stocks 17.7 13.9 33.9 Long-term corporate bonds 6.1 2.3 8.7 Long-term government bonds 5.6 1.8 9.2 Intermediate-term government bonds 5.4 1.6 5.7 U.S. Treasury bills 3.8 3.2 Inflation 3.2 4.5 Risk premium Arithmetic (relative to U.S. Standard Series mean Treasury bills) deviation -90%90%0%

2 The Value of an Investment of $1 in 1926 Source: Ibbotson Associates Index Year End 1 5520 1828 55.38 39.07 14.25

3 The Value of an Investment of $1 in 1926 Source: Ibbotson Associates Index Year End 1 613 203 6.15 4.34 1.58 Real returns

4 Rates of Return 1926-1997 Source: Ibbotson Associates Year Percentage Return

5 Measuring Risk Return % # of Years Histogram of Annual Stock Market Returns

6 Variance and Standard Deviation  VAR (r i ~ ) = E [ r i ~ - E(r i ~ ) ] 2 =  ri 2,  COV( r 1 ~, r 2 ~ ) = E [(r 1 ~ - E(r 1 ~ )) (r 2 ~ - E(r 2 ~ ))] where r i ~ is actual return governed by probability distribution  EX:The return of asset i next period is ether.2 with prob. 60% or -.1 with prob. 40%  E(r i ~ ) =.6*.2 +.4*(-.1) =.08  Var(r i ~ ) =.6*(.2-.08) 2 +.4*(-.1-.08) 2 =.0216

7 Return and Variance of Two Assets  Calculating Portfolio risks of two stocks E(r ~ )Weight SD(r ~ ) Stock A.15.6 18.6 Stock B.21.4 28  E(r p ~ ) = x 1 *E(r 1 ~ ) + x 2 *E(r 2 ~ ), where x 1 + x 2 = 1 E(r p ~ ) =.6*.15 +.4*.21 =.174  What about variance? x 1 *  1 2 + x 2  2 2 ? No!!!

8 Covariance of a portfolio of two assets   p 2 = E [ r p ~ - E(r p ~ ) ] 2 = E [x 1 r 1 ~ + x 2 r 2 ~ - x 1 *E(r 1 ~ ) - x 2 *E(r 2 ~ )] 2 = E[x 1 *(r 1 ~ -E(r 1 ~ )) + x 2 *(r 2 ~ -E(r 2 ~ )] 2 = E[ x 1 2 (r 1 ~ -E(r 1 ~ ) 2 + x 2 2 (r 2 ~ -E(r 2 ~ ) 2 + x 1 x 2 (r 1 ~ -E(r 1 ~ )(r 2 ~ -E(r 2 ~ ) + x 1 x 2 (r 1 ~ -E(r 1 ~ )(r 2 ~ -E(r 2 ~ )] = x 1 2  1 2 + x 2 2  2 2 + 2x 1 x 2 COV(r 1 ~, r 2 ~ ) Define COV(r 1 ~, r 2 ~ ) = E[(r 1 ~ -E(r 1 ~ ) (r 2 ~ -E(r 2 ~ )] =  12

9 Correlation Coefficient To get rid of the unit, we define Correlation coefficient  12 = COV(r 1 ~, r 2 ~ ) /  1  2, where -1<=  <= 1 Thus,  p 2 = x 1 2  1 2 + x 2 2  2 2 + 2x 1 x 2  1  2  12  If  12 = 1, then  p = X 1  1 + X 2  2  If  12 < 1, then  p < X 1  1 + X 2  2 Stock 1Stock 2 Stock 1x 1 2  1 2 x 1 x 2 COV(r 1 ~, r 2 ~ ) Stock 2x 1 x 2 COV(r 1 ~, r 2 ~ )x 2 2  2 2

10 The composition of portfolio variance  Two risky assets  Three assets  Four assets  N risky assets

11 Variance of a Diversified Portfolio  What is the variance of portfolio if the number of stock increases?  General Formula: a portfolio with equally weighted N stocks  Portfolio variance: = N (1/N) 2 * average var. + (N 2 -N)(1/N) 2 * average cov. = 1/N * average var. + (1-1/N) * average cov.  As N increases, the variance of each individual stock becomes less important, and the average covariance becomes dominant.

12 How does diversification reduce risks?  The central message: total risk can be decomposed into two parts: systematic and unsystematic risks.  Therefore diversification can only eliminate unique risks (or unsystematic risks, diversifyable risks), can not eliminate market risk (systematic risks, undiversificable risk)  What is unsystematic risks?  RD program, new product introduction, labor relations, personal changes, lawsuits.  The risk of a well-diversified portfolio depends on the market risk of the securities included in the portfolio.

13 Measuring Risk

14 How individual securities affect portfolio risk? ABAB  Row 1A..6 2 *18.6 2.6*.4*.2*18.6*28  Row 2B.6*.4*.2*18.6*28.4 2 *28 2 Row 1 =.6 * [.6*18.6 2 +.4*.2*18.6*28] =.6 * 249 Row 2 =.4 * [.6*.2*18.6*28 +.4*28 2 ] =.4 * 376 Total = 300  The contribution of stock A to portfolio risk is WEIGHT * COVARIANCE WITH ALL THE SECURITIES IN THE PORTFOLIO (INCLUDING ITSELF)  The risk of a stock not only depend on its own risks, but also its contribution to the risk of whole portfolio.

15 Stock’s Beta  If the portfolio is the market portfolio, then we have the formal definition of Beta  Beta - Sensitivity of a stock’s return to the return on the market portfolio.  = Cov (r i ~, r m ~ ) / Var(r m ~ ) =  i,m  i  m /  m 2 =  i,m [  i /  m ]

16 Conclusions  Markets risk accounts for most of the risk of a well-diversified portfolio.  The beta of an individual security measure its sensitivity to market movement.  A nice property of Beta:  p =  X i  I, where Xi is the weight of market value of asset I  Does corporate diversification add value for shareholders?

Download ppt "Introduction to Risk and Return Common stocks 13.0% 9.2% 20.3% Small-company stocks 17.7 13.9 33.9 Long-term corporate bonds 6.1 2.3 8.7 Long-term government."

Similar presentations

Principles of Corporate Finance

Principles of Corporate Finance
Introduction to Risk and Return

Introduction to Risk and Return
The McGraw-Hill Companies, Inc., 2000

The McGraw-Hill Companies, Inc., 2000
Copyright © 2007 by The McGraw-Hill Companies, Inc. All rights reserved. McGraw-Hill/Irwin Return and Risk: The Capital Asset Pricing Model (CAPM) Chapter.

Copyright © 2007 by The McGraw-Hill Companies, Inc. All rights reserved. McGraw-Hill/Irwin Return and Risk: The Capital Asset Pricing Model (CAPM) Chapter.
FINANCE 8. Capital Markets and The Pricing of Risk Professor André Farber Solvay Business School Université Libre de Bruxelles Fall 2007.

FINANCE 8. Capital Markets and The Pricing of Risk Professor André Farber Solvay Business School Université Libre de Bruxelles Fall 2007.
Chapters 9 & 10 – MBA504 Risk and Returns Return Basics –Holding-Period Returns –Return Statistics Risk Statistics Return and Risk for Individual Securities.

Chapters 9 & 10 – MBA504 Risk and Returns Return Basics –Holding-Period Returns –Return Statistics Risk Statistics Return and Risk for Individual Securities.
Risk-Return Problems 7. Calculating Returns and Deviations Based on the following information, calculate the expected return and standard deviation for.

Risk-Return Problems 7. Calculating Returns and Deviations Based on the following information, calculate the expected return and standard deviation for.
Diversification and Portfolio Management (Ch. 8)

Diversification and Portfolio Management (Ch. 8)
Risk, Return, and Discount Rates

Risk, Return, and Discount Rates
Jacoby, Stangeland and Wajeeh, 20001 Risk Return & The Capital Asset Pricing Model (CAPM) l To make “good” (i.e., value-maximizing) financial decisions,

Jacoby, Stangeland and Wajeeh, Risk Return & The Capital Asset Pricing Model (CAPM) l To make “good” (i.e., value-maximizing) financial decisions,
Today Risk and Return Reading Portfolio Theory

Today Risk and Return Reading Portfolio Theory
Combining Individual Securities Into Portfolios (Chapter 4)

Combining Individual Securities Into Portfolios (Chapter 4)
Portfolio Analysis and Theory

Portfolio Analysis and Theory
6-1 Risk and Return: Modern Portfolio Theory. 6-2 Returns and Return Distribution Dollar return Dollar return dividend income + capital gains dividend.

6-1 Risk and Return: Modern Portfolio Theory. 6-2 Returns and Return Distribution Dollar return Dollar return dividend income + capital gains dividend.
Introduction to Risk, Return, and The Opportunity Cost of Capital

Introduction to Risk, Return, and The Opportunity Cost of Capital
Beta Prof. André Farber SOLVAY BUSINESS SCHOOL UNIVERSITÉ LIBRE DE BRUXELLES.

Beta Prof. André Farber SOLVAY BUSINESS SCHOOL UNIVERSITÉ LIBRE DE BRUXELLES.
FIN638 Vicentiu Covrig 1 Portfolio management. FIN638 Vicentiu Covrig 2 How Finance is organized Corporate finance Investments International Finance Financial.

FIN638 Vicentiu Covrig 1 Portfolio management. FIN638 Vicentiu Covrig 2 How Finance is organized Corporate finance Investments International Finance Financial.
 Introduction to Risk, Return, and the Opportunity Cost of Capital Principles of Corporate Finance Brealey and Myers Sixth Edition Slides by Matthew Will.

 Introduction to Risk, Return, and the Opportunity Cost of Capital Principles of Corporate Finance Brealey and Myers Sixth Edition Slides by Matthew Will.
11-1 Copyright © 2011 by the McGraw-Hill Companies, Inc. All rights reserved. McGraw-Hill/Irwin.

11-1 Copyright © 2011 by the McGraw-Hill Companies, Inc. All rights reserved. McGraw-Hill/Irwin.
CORPORATE FINANCE V ESCP-EAP - European Executive MBA 14-15 Dec. 2005, London Risk, Return, Diversification and CAPM I. Ertürk Senior Fellow in Banking.

CORPORATE FINANCE V ESCP-EAP - European Executive MBA Dec. 2005, London Risk, Return, Diversification and CAPM I. Ertürk Senior Fellow in Banking.

Similar presentations

Ads by Google