ch08-ppt-risk and rates of return-1
TRANSCRIPT
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Risk and Rates of Return
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Defining and Measuring Risk
Risk is the chance that an unexpected outcome will occur
A probability distribution is a listing of all possible outcomes with a probability assigned to each
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ExampleExample
1.0000
0.06254
0.25003
0.37502
0.25001
0.06250
P(X)X The mean of this distribution is 2,
since it is a symmetrical distribution.E
xam
ple
Q:If you toss a coin four times what is the chance of getting x heads?
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Calculate the Mean
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Discrete Probability Discrete Probability DistributionDistribution
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Variance and Standard DeviationVariance and Standard Deviation
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Probability Distributions
It either will rain, or it will not.Only two possible outcomes.
Outcome (1) Probability (2)
Rain 0.40 = 40%
No Rain 0.60 = 60%
1.00 100%
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Probability Distributions
Martin Products and U. S. Electric
Martin Products U.S. Electric
Boom 0.2 110% 20%Normal 0.5 22% 16%Recession 0.3 -60% 10%
1.0
Probability of This State Occurring
State of the Economy
Rate of Return on Stock if This State Occurs
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Expected Rate of Return
Rate of return expected to be realized from an investment during its life
Mean value of the probability distribution of possible returns
Weighted average of the outcomes, where the weights are the probabilities
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Expected Rate of Return
(1) (2) (3) = (4) (5) = (6)Boom 0.2 110% 22% 20% 4%Normal 0.5 22% 11% 16% 8%Recession 0.3 -60% -18% 10% 3%
1.0 r m = 15% r m = 15%
State of the Economy
Martin Products U. S. ElectricReturn if This
State Occurs (ri)Product: (2) x (5)
Probability of This State
Occurring (Pr i)Return if This State
Occurs (ri)Product: (2) x (3)
^ ^
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ˆ r Pr1r1 Pr2r2 Prnrn
Pririi1
n
Expected Rate of Return
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Continuous versus Discrete Probability Distributions
Discrete Probability Distribution:number of possible outcomes is limited, or finite.
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Discrete Probability DistributionsDiscrete Probability Distributionsa. Martin Products
Probability of Occurrence
b. U. S. ElectricProbability of Occurrence
-60 -45 -30 -15 0 15 22 30 45 60 75 90 110Rate of
Return (%)Expected Rate of Return (15%)
0.5 -
0.4 -
0.3 -
0.2 -
0.1 -
-10 -5 0 5 10 16 20 25Rate of
Return (%)Expected Rate
of Return (15%)
0.5 -
0.4 -
0.3 -
0.2 -
0.1 -
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Continuous Versus Discrete Probability Distributions
Continuous Probability Distribution:number of possible outcomes is unlimited, or infinite.
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Probability Density
-60 0 15 110Rate of Return
(%)Expected Rate of Return
Martin ProductsMartin Products
U. S. ElectricU. S. Electric
Continuous Probability Distributions
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Measuring Risk: The Standard Deviation
Calculating Martin Products’ Standard Deviation
(1) (2) (1) - (2) = (3) (4) (5) (4) x (5) = (6)110% 15% 95 9,025 0.2 1,805.0 22% 15% 7 49 0.5 24.5 -60% 15% -75 5,625 0.3 1,687.5
Payoff
r i(r i - r)
2Pr iProbability
Expected Return
rri - r (r i - r)
2^ ^ ^
%3.59 517,3 Deviation Standard
0.517,3 Variance
2mm
2
^^^^
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Expected rate of return ˆ r ri ˆ r 2 Prii1
n
Variance 2 ri - ˆ r 2Pri
i1
n
Standard deviation ri - ˆ r 2Pri
i1
n
Measuring Risk: The Standard Deviation
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Measuring Risk: Coefficient of Variation
Calculated as the standard deviation divided by the expected return
Useful where investments differ in risk and expected returns
Coefficient of variation = CV = Risk
Return
ˆ r
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Risk Aversion and Required Returns
Risk-averse investors require higher rates of return to invest in higher-risk securities
Risk Premium (RP):The portion of the expected return that can
be attributed to an investment’s risk beyond a riskless investment
The difference between the expected rate of return on a given risky asset and that on a less risky asset
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Expected Rate of Return
Expected ending value - Beginning value
Beginning valueExpected rate
of return =
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Expected return on a portfolio,
ˆ r p w1ˆ r 1 w2
ˆ r 2 wNˆ r N
w jˆ r j
j1
N
ˆ r pThe weighted average expected return on the stocks held in the portfolio
Portfolio Returns
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Portfolio Returns
Realized rate of return, rThe return that is actually earned
Actual return usually different from expected return
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Returns Distribution for Two Perfectly Negatively Correlated Stocks ( = -1.0) and for Portfolio WM:
25
15
0
-10
Stock W
-10
0
15
25
Portfolio WM
-10
0
15
25
Stock M
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Stock M
0
15
25
-10
0
15
25
-10
Stock M’
0
15
25
-10
Stock MM’
Returns Distributions for Two Perfectly Positively Correlated Stocks ( = +1.0) and for Portfolio MM’:
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Portfolio RiskCorrelation Coefficient, Measures the degree of relationship
between two variables.
Perfectly correlated stocks have rates of return that move in the same direction.
Negatively correlated stocks have rates of return that move in opposite directions.
∑xy) – (∑x)(∑y) / √ {n(∑x2) – (∑x)2}{n(∑y2) – (∑y)2}
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Portfolio Risk
Risk ReductionCombining stocks that are not perfectly
correlated will reduce the portfolio risk through diversification.
The riskiness of a portfolio is reduced as the number of stocks in the portfolio increases.
The smaller the positive correlation, the lower the risk.
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Firm-Specific Risk versus Market Risk
Firm-Specific Risk:That part of a security’s risk
associated with random outcomes generated by events, or behaviors, specific to the firm.
Firm-specific risk can be eliminated through proper diversification.
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Firm-Specific Risk versus Market Risk
Market Risk:That part of a security’s risk that
cannot be eliminated through diversification because it is associated with economic, or market factors that systematically affect all firms.
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Firm-Specific Risk versus Market Risk
Relevant Risk:The risk of a security that cannot be
diversified away, or its market risk.
This reflects a security’s contribution to a portfolio’s total risk.
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The Concept of Beta
Beta Coefficient, :A measure of the extent to which the returns
on a given stock move with the stock market.
= 0.5: Stock is only half as volatile, or risky, as the average stock.
= 1.0: Stock has the same risk as the average risk.
= 2.0: Stock is twice as risky as the average stock.
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N
1jjj
nn2211
w
www
p
Portfolio Beta Coefficients
The beta of any set of securities is the weighted average of the individual securities’ betas
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ˆ r j expected rate of return on the jth stock
rj required rate of return on the jth stock
rRF risk free rate of return
RPM rM - rRF market risk premium
RPj rM - rRF j risk premium on the jth stock
The Relationship Between Risk and Rates of Return
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Market Risk Premium
RPM is the additional return over the risk-free rate needed to compensate investors for assuming an average amount of risk.
Assuming:Treasury bonds yield = 6%,Average stock required return = 14%,Then the market risk premium is 8 percent:
RPM = rM - rRF = 14% - 6% = 8%.
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Risk Premium for a Stock
Risk Premium for Stock j
= RPM x j
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Security Market Line (SML):The line that shows the relationship
between risk as measured by beta and the required rate of return for individual securities.
The Required Rate of Return for a Stock
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Security Market Line
SML :rj rRF rM rRF j
rhigh = 22
rM = rA = 14
rLOW = 10
rRF = 6
Risk, j0 0.5 1.0 1.5 2.0
Required Rate of Return (%)
Risk-Free Rate: 6%
Safe Stock Risk Premium: 4%
Market (Average Stock) Risk Premium: 8%
Relatively Risky Stock’s Risk Premium: 16%
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The Impact of Inflation
rRF is the price of money to a riskless borrower.
The nominal rate consists of: a real (inflation-free) rate of return, andan inflation premium (IP).
An increase in expected inflation would increase the risk-free rate.
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Changes in Risk Aversion
The slope of the SML reflects the extent to which investors are averse to risk.
An increase in risk aversion increases the risk premium and increases the slope.
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Changes in a Stock’s Beta Coefficient
The Beta risk of a stock is affected by:composition of its assets,use of debt financing,increased competition, andexpiration of patents.
Any change in the required return (from change in beta or in expected inflation) affects the stock price.
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Stock Market Equilibrium
The condition under which the expected return on a security is just equal to its required return
Actual market price equals its intrinsic value as estimated by the marginal investor, leading to price stability
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Changes in Equilibrium Stock Prices
Stock prices are not constant due to changes in:
Risk-free rate, rRF,
Market risk premium, rM – rRF,
Stock X’s beta coefficient, x,
Stock X’s expected growth rate, gX, and
Changes in expected dividends, D0.
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Physical Assets Versus Securities
Riskiness of corporate assets is only relevant in terms of its effect on the stock’s risk.
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Word of Caution
CAPM (Capital Asset Price Model)Based on expected conditions
Only have historical data
As conditions change, future volatility may differ from past volatility
Estimates are subject to error