Principles of Corporate Finance Session 29 Unit IV: Risk & Return Analysis.
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Transcript of Principles of Corporate Finance Session 29 Unit IV: Risk & Return Analysis.
![Page 1: Principles of Corporate Finance Session 29 Unit IV: Risk & Return Analysis.](https://reader038.fdocuments.us/reader038/viewer/2022110322/56649d155503460f949ea907/html5/thumbnails/1.jpg)
Principles of Corporate Finance
Session 29
Unit IV: Risk & Return Analysis
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Defining ReturnDefining Return
Income received on an investment plus any change in market price, usually expressed as a percent of the beginning market price
of the investment.
Income received on an investment plus any change in market price, usually expressed as a percent of the beginning market price
of the investment.
Dt + (Pt – Pt - 1 )
Pt - 1
R =
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Return ExampleReturn Example
The stock price for Stock A was $10 per share 1 year ago. The stock is currently trading at
$9.50 per share and shareholders just received a $1 dividend. What return was earned over
the past year?
The stock price for Stock A was $10 per share 1 year ago. The stock is currently trading at
$9.50 per share and shareholders just received a $1 dividend. What return was earned over
the past year?
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Return ExampleReturn Example
The stock price for Stock A was $10 per share 1 year ago. The stock is currently trading at
$9.50 per share and shareholders just received a $1 dividend. What return was earned over
the past year?
The stock price for Stock A was $10 per share 1 year ago. The stock is currently trading at
$9.50 per share and shareholders just received a $1 dividend. What return was earned over
the past year?
$1.00 + ($9.50 – $10.00 )$10.00R = = 5%
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Defining RiskDefining Risk
What rate of return do you expect on your investment (savings) this year?
What rate will you actually earn?
Does it matter if it is a bank CD or a share of stock?
What rate of return do you expect on your investment (savings) this year?
What rate will you actually earn?
Does it matter if it is a bank CD or a share of stock?
The variability of returns from those that are expected.
The variability of returns from those that are expected.
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Determining Expected Return (Discrete Dist.)Determining Expected Return (Discrete Dist.)
R = S ( Ri )( Pi )R is the expected return for the asset,
Ri is the return for the ith possibility,
Pi is the probability of that return occurring,n is the total number of possibilities.
R = S ( Ri )( Pi )R is the expected return for the asset,
Ri is the return for the ith possibility,
Pi is the probability of that return occurring,n is the total number of possibilities.
n
I = 1
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Principles of Corporate Finance
Session 30
Unit IV: Risk & Return Analysis
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Certainty Equivalent (CE) is the amount of cash someone would require with certainty
at a point in time to make the individual indifferent between that certain amount and an amount expected to be received with risk
at the same point in time.
Certainty Equivalent (CE) is the amount of cash someone would require with certainty
at a point in time to make the individual indifferent between that certain amount and an amount expected to be received with risk
at the same point in time.
Risk AttitudesRisk Attitudes
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Certainty equivalent > Expected valueRisk Preference
Certainty equivalent = Expected valueRisk Indifference
Certainty equivalent < Expected valueRisk Aversion
Most individuals are Risk Averse.
Certainty equivalent > Expected valueRisk Preference
Certainty equivalent = Expected valueRisk Indifference
Certainty equivalent < Expected valueRisk Aversion
Most individuals are Risk Averse.
Risk AttitudesRisk Attitudes
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You have the choice between (1) a guaranteed dollar reward or (2) a coin-flip gamble of
$100,000 (50% chance) or $0 (50% chance). The expected value of the gamble is $50,000.• Mary requires a guaranteed $25,000, or more, to call
off the gamble.• Raleigh is just as happy to take $50,000 or take the
risky gamble.• Shannon requires at least $52,000 to call off the
gamble.
Risk Attitude ExampleRisk Attitude Example
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What are the Risk Attitude tendencies of each?What are the Risk Attitude tendencies of each?
Risk Attitude ExampleRisk Attitude Example
Mary shows “risk aversion” because her “certainty equivalent” < the expected value of the gamble.
Raleigh exhibits “risk indifference” because her “certainty equivalent” equals the expected value of the gamble.
Shannon reveals a “risk preference” because her “certainty equivalent” > the expected value of the gamble.
Mary shows “risk aversion” because her “certainty equivalent” < the expected value of the gamble.
Raleigh exhibits “risk indifference” because her “certainty equivalent” equals the expected value of the gamble.
Shannon reveals a “risk preference” because her “certainty equivalent” > the expected value of the gamble.
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Principles of Corporate Finance
Session 31 & 32
Unit IV: Risk & Return Analysis
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How to Determine the Expected Return and Standard Deviation
How to Determine the Expected Return and Standard Deviation
Stock BW Ri Pi (Ri)(Pi)
-0.15 0.10 –0.015 -0.03 0.20 –0.006 0.09 0.40 0.036 0.21 0.20 0.042 0.33 0.10 0.033 Sum 1.00 0.090
Stock BW Ri Pi (Ri)(Pi)
-0.15 0.10 –0.015 -0.03 0.20 –0.006 0.09 0.40 0.036 0.21 0.20 0.042 0.33 0.10 0.033 Sum 1.00 0.090
The expected return, R, for Stock BW is .09
or 9%
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Determining Standard Deviation (Risk Measure)
Determining Standard Deviation (Risk Measure)
s = S ( Ri – R )2( Pi )
Standard Deviation, s, is a statistical measure of the variability of a distribution around its
mean.
It is the square root of variance.
Note, this is for a discrete distribution.
s = S ( Ri – R )2( Pi )
Standard Deviation, s, is a statistical measure of the variability of a distribution around its
mean.
It is the square root of variance.
Note, this is for a discrete distribution.
n
i = 1
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How to Determine the Expected Return and Standard Deviation
How to Determine the Expected Return and Standard Deviation
Stock BW Ri Pi (Ri)(Pi) (Ri - R )2(Pi)
–0.15 0.10 –0.015 0.00576 –0.03 0.20 –0.006 0.00288 0.09 0.40 0.036 0.00000 0.21 0.20 0.042 0.00288 0.33 0.10 0.033 0.00576 Sum 1.00 0.090 0.01728
Stock BW Ri Pi (Ri)(Pi) (Ri - R )2(Pi)
–0.15 0.10 –0.015 0.00576 –0.03 0.20 –0.006 0.00288 0.09 0.40 0.036 0.00000 0.21 0.20 0.042 0.00288 0.33 0.10 0.033 0.00576 Sum 1.00 0.090 0.01728
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Determining Standard Deviation (Risk Measure)
Determining Standard Deviation (Risk Measure)
n
i=1s = S ( Ri – R )2( Pi )
s = .01728
s = 0.1315 or 13.15%
s = S ( Ri – R )2( Pi )
s = .01728
s = 0.1315 or 13.15%
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Coefficient of VariationCoefficient of Variation
The ratio of the standard deviation of a distribution to the mean of that
distribution.
It is a measure of RELATIVE risk.
CV = s/R
CV of BW = 0.1315 / 0.09 = 1.46
The ratio of the standard deviation of a distribution to the mean of that
distribution.
It is a measure of RELATIVE risk.
CV = s/R
CV of BW = 0.1315 / 0.09 = 1.46
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Discrete versus. Continuous Distributions
0
0.05
0.1
0.15
0.2
0.25
0.3
0.35
0.4
–0.15 –0.03 9% 21% 33%
Discrete Continuous
0
0.005
0.01
0.015
0.02
0.025
0.03
0.035
-50%
-41%
-32%
-23%
-14% -5
% 4%13
%22
%31
%40
%49
%58
%67
%
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Principles of Corporate Finance
Session 32 & 33
Unit IV: Risk & Return Analysis
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RP = S ( Wj )( Rj )
RP is the expected return for the portfolio,
Wj is the weight (investment proportion) for the jth asset in the portfolio,
Rj is the expected return of the jth asset,
m is the total number of assets in the portfolio.
RP = S ( Wj )( Rj )
RP is the expected return for the portfolio,
Wj is the weight (investment proportion) for the jth asset in the portfolio,
Rj is the expected return of the jth asset,
m is the total number of assets in the portfolio.
Determining PortfolioExpected Return
Determining PortfolioExpected Return
m
J = 1
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Determining Portfolio Standard Deviation
Determining Portfolio Standard Deviation
m
J=1
m
K=1sP = S S Wj Wk s jk
Wj is the weight (investment proportion) for the jth asset in the portfolio,
Wk is the weight (investment proportion) for the kth asset in the portfolio,
sjk is the covariance between returns for the jth and kth assets in the portfolio.
sP = S S Wj Wk s jk Wj is the weight (investment proportion) for the jth asset in the
portfolio,
Wk is the weight (investment proportion) for the kth asset in the portfolio,
sjk is the covariance between returns for the jth and kth assets in the portfolio.
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s jk = s j s k r jk
sj is the standard deviation of the jth asset in
the portfolio,
sk is the standard deviation of the kth asset in
the portfolio,
rjk is the correlation coefficient between the jth and kth assets in the portfolio.
s jk = s j s k r jk
sj is the standard deviation of the jth asset in
the portfolio,
sk is the standard deviation of the kth asset in
the portfolio,
rjk is the correlation coefficient between the jth and kth assets in the portfolio.
What is Covariance?What is Covariance?
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A standardized statistical measure of the linear relationship between two variables.
Its range is from –1.0 (perfect negative correlation), through 0 (no correlation), to
+1.0 (perfect positive correlation).
A standardized statistical measure of the linear relationship between two variables.
Its range is from –1.0 (perfect negative correlation), through 0 (no correlation), to
+1.0 (perfect positive correlation).
Correlation CoefficientCorrelation Coefficient
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A three asset portfolio: Col 1 Col 2 Col 3
Row 1 W1W1s1,1 W1W2s1,2 W1W3s1,3
Row 2 W2W1s2,1 W2W2s2,2 W2W3s2,3
Row 3 W3W1s3,1 W3W2s3,2 W3W3s3,3
sj,k = is the covariance between returns for the jth and kth assets in the portfolio.
A three asset portfolio: Col 1 Col 2 Col 3
Row 1 W1W1s1,1 W1W2s1,2 W1W3s1,3
Row 2 W2W1s2,1 W2W2s2,2 W2W3s2,3
Row 3 W3W1s3,1 W3W2s3,2 W3W3s3,3
sj,k = is the covariance between returns for the jth and kth assets in the portfolio.
Variance – Covariance MatrixVariance – Covariance Matrix
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You are creating a portfolio of Stock D and Stock BW (from earlier). You are investing $2,000 in Stock BW and $3,000 in Stock D. Remember that the expected return and standard deviation of Stock BW is 9% and
13.15% respectively. The expected return and standard deviation of Stock D is 8% and 10.65%
respectively. The correlation coefficient between BW and D is 0.75.
What is the expected return and standard deviation of the portfolio?
You are creating a portfolio of Stock D and Stock BW (from earlier). You are investing $2,000 in Stock BW and $3,000 in Stock D. Remember that the expected return and standard deviation of Stock BW is 9% and
13.15% respectively. The expected return and standard deviation of Stock D is 8% and 10.65%
respectively. The correlation coefficient between BW and D is 0.75.
What is the expected return and standard deviation of the portfolio?
Portfolio Risk and Expected Return ExamplePortfolio Risk and Expected Return Example
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WBW = $2,000/$5,000 = 0.4
WD = $3,000/$5,000 = 0.6
RP = (WBW)(RBW) + (WD)(RD)
RP = (0.4)(9%) + (0.6)(8%)
RP = (3.6%) + (4.8%) = 8.4%
WBW = $2,000/$5,000 = 0.4
WD = $3,000/$5,000 = 0.6
RP = (WBW)(RBW) + (WD)(RD)
RP = (0.4)(9%) + (0.6)(8%)
RP = (3.6%) + (4.8%) = 8.4%
Determining Portfolio Expected ReturnDetermining Portfolio Expected Return
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Two-asset portfolio: Col 1 Col 2
Row 1 WBW WBW sBW,BW WBW WD sBW,D
Row 2 WD WBW sD,BW WD WD sD,D
This represents the variance – covariance matrix for the two-asset portfolio.
Two-asset portfolio: Col 1 Col 2
Row 1 WBW WBW sBW,BW WBW WD sBW,D
Row 2 WD WBW sD,BW WD WD sD,D
This represents the variance – covariance matrix for the two-asset portfolio.
Determining Portfolio Standard DeviationDetermining Portfolio Standard Deviation
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Two-asset portfolio: Col 1 Col 2
Row 1 (0.4)(0.4)(0.0173) (0.4)(0.6)(0.0105)
Row 2 (0.6)(0.4)(0.0105) (0.6)(0.6)(0.0113)
This represents substitution into the variance – covariance matrix.
Two-asset portfolio: Col 1 Col 2
Row 1 (0.4)(0.4)(0.0173) (0.4)(0.6)(0.0105)
Row 2 (0.6)(0.4)(0.0105) (0.6)(0.6)(0.0113)
This represents substitution into the variance – covariance matrix.
Determining Portfolio Standard DeviationDetermining Portfolio Standard Deviation
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Two-asset portfolio: Col 1 Col 2
Row 1 (0.0028) (0.0025)
Row 2 (0.0025) (0.0041)
This represents the actual element values in the variance – covariance matrix.
Two-asset portfolio: Col 1 Col 2
Row 1 (0.0028) (0.0025)
Row 2 (0.0025) (0.0041)
This represents the actual element values in the variance – covariance matrix.
Determining Portfolio Standard DeviationDetermining Portfolio Standard Deviation
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sP = 0.0028 + (2)(0.0025) + 0.0041
sP = SQRT(0.0119)
sP = 0.1091 or 10.91%
A weighted average of the individual standard deviations is INCORRECT.
sP = 0.0028 + (2)(0.0025) + 0.0041
sP = SQRT(0.0119)
sP = 0.1091 or 10.91%
A weighted average of the individual standard deviations is INCORRECT.
Determining Portfolio Standard DeviationDetermining Portfolio Standard Deviation
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The WRONG way to calculate is a weighted average like:
sP = 0.4 (13.15%) + 0.6(10.65%)
sP = 5.26 + 6.39 = 11.65%
10.91% = 11.65%
This is INCORRECT.
The WRONG way to calculate is a weighted average like:
sP = 0.4 (13.15%) + 0.6(10.65%)
sP = 5.26 + 6.39 = 11.65%
10.91% = 11.65%
This is INCORRECT.
Determining Portfolio Standard DeviationDetermining Portfolio Standard Deviation
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Stock C Stock D Portfolio
Return 9.00% 8.00% 8.64%
Stand.Dev. 13.15% 10.65% 10.91%
CV 1.46 1.33 1.26
The portfolio has the LOWEST coefficient of variation due to diversification.
Stock C Stock D Portfolio
Return 9.00% 8.00% 8.64%
Stand.Dev. 13.15% 10.65% 10.91%
CV 1.46 1.33 1.26
The portfolio has the LOWEST coefficient of variation due to diversification.
Summary of the Portfolio Return and Risk CalculationSummary of the Portfolio Return and Risk Calculation
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Combining securities that are not perfectly, positively correlated reduces risk.
Combining securities that are not perfectly, positively correlated reduces risk.
INV
ES
TM
EN
T R
ET
UR
N
TIME TIMETIME
SECURITY E SECURITY FCombination
E and F
Diversification and the Correlation CoefficientDiversification and the Correlation Coefficient
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Principles of Corporate Finance
Session 34
Unit IV: Risk & Return Analysis
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Systematic Risk is the variability of return on stocks or portfolios associated with changes in return on the market as a
whole.
Unsystematic Risk is the variability of return on stocks or portfolios not
explained by general market movements. It is avoidable through diversification.
Systematic Risk is the variability of return on stocks or portfolios associated with changes in return on the market as a
whole.
Unsystematic Risk is the variability of return on stocks or portfolios not
explained by general market movements. It is avoidable through diversification.
Total Risk = Systematic Risk + Unsystematic Risk
Total Risk = Systematic Risk + Unsystematic RiskTotal Risk = Systematic Risk + Unsystematic Risk
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TotalRisk
Unsystematic risk
Systematic risk
ST
D D
EV
OF
PO
RT
FO
LIO
RE
TU
RN
NUMBER OF SECURITIES IN THE PORTFOLIO
Factors such as changes in the nation’s economy, tax reform by the Congress,or a change in the world situation.
Total Risk = Systematic Risk + Unsystematic RiskTotal Risk = Systematic Risk + Unsystematic Risk
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TotalRisk
Unsystematic risk
Systematic risk
ST
D D
EV
OF
PO
RT
FO
LIO
RE
TU
RN
NUMBER OF SECURITIES IN THE PORTFOLIO
Factors unique to a particular companyor industry. For example, the death of akey executive or loss of a governmentaldefense contract.
Total Risk = Systematic Risk + Unsystematic RiskTotal Risk = Systematic Risk + Unsystematic Risk
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CAPM is a model that describes the relationship between risk and expected
(required) return; in this model, a security’s expected (required) return is the risk-free rate plus a premium based on the systematic risk
of the security.
CAPM is a model that describes the relationship between risk and expected
(required) return; in this model, a security’s expected (required) return is the risk-free rate plus a premium based on the systematic risk
of the security.
Capital Asset Pricing Model (CAPM)Capital Asset Pricing Model (CAPM)
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1. Capital markets are efficient.
2. Homogeneous investor expectations over a given period.
3. Risk-free asset return is certain (use short- to intermediate-term
Treasuries as a proxy).
4. Market portfolio contains only systematic risk (use S&P 500 Indexor similar as a proxy).
1. Capital markets are efficient.
2. Homogeneous investor expectations over a given period.
3. Risk-free asset return is certain (use short- to intermediate-term
Treasuries as a proxy).
4. Market portfolio contains only systematic risk (use S&P 500 Indexor similar as a proxy).
CAPM AssumptionsCAPM Assumptions
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EXCESS RETURNON STOCK
EXCESS RETURNON MARKET PORTFOLIO
Beta =RiseRun
Narrower spreadis higher correlation
Characteristic Line
Characteristic LineCharacteristic Line
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Principles of Corporate Finance
Session 35
Unit IV: Risk & Return Analysis
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An index of systematic risk.
It measures the sensitivity of a stock’s returns to changes in returns on the market
portfolio.
The beta for a portfolio is simply a weighted average of the individual stock betas in the
portfolio.
An index of systematic risk.
It measures the sensitivity of a stock’s returns to changes in returns on the market
portfolio.
The beta for a portfolio is simply a weighted average of the individual stock betas in the
portfolio.
What is Beta?What is Beta?
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EXCESS RETURNON STOCK
EXCESS RETURNON MARKET PORTFOLIO
Beta < 1(defensive)
Beta = 1
Beta > 1(aggressive)
Each characteristic line has a
different slope.
Characteristic Lines and Different BetasCharacteristic Lines and Different Betas
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Rj is the required rate of return for stock j,
Rf is the risk-free rate of return,
bj is the beta of stock j (measures systematic risk of stock j),
RM is the expected return for the market portfolio.
Rj is the required rate of return for stock j,
Rf is the risk-free rate of return,
bj is the beta of stock j (measures systematic risk of stock j),
RM is the expected return for the market portfolio.
Rj = Rf + bj(RM – Rf)
Security Market LineSecurity Market Line
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Rj = Rf + bj(RM – Rf)
bM = 1.0
Systematic Risk (Beta)
Rf
RM
Req
uire
d R
etur
n
RiskPremium
Risk-freeReturn
Security Market LineSecurity Market Line
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• Obtaining Betas• Can use historical data if past best represents the
expectations of the future• Can also utilize services like Value Line, Ibbotson
Associates, etc.
• Adjusted Beta• Betas have a tendency to revert to the mean of 1.0• Can utilize combination of recent beta and mean
• 2.22 (0.7) + 1.00 (0.3) = 1.554 + 0.300 = 1.854 estimate
• Obtaining Betas• Can use historical data if past best represents the
expectations of the future• Can also utilize services like Value Line, Ibbotson
Associates, etc.
• Adjusted Beta• Betas have a tendency to revert to the mean of 1.0• Can utilize combination of recent beta and mean
• 2.22 (0.7) + 1.00 (0.3) = 1.554 + 0.300 = 1.854 estimate
Security Market LineSecurity Market Line
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Lisa Miller at Basket Wonders is attempting to determine the rate of return required by their stock investors. Lisa is using a 6% Rf and a long-term market expected rate of return of 10%. A stock analyst following the firm has
calculated that the firm beta is 1.2. What is the required rate of return on the stock of Basket
Wonders?
Lisa Miller at Basket Wonders is attempting to determine the rate of return required by their stock investors. Lisa is using a 6% Rf and a long-term market expected rate of return of 10%. A stock analyst following the firm has
calculated that the firm beta is 1.2. What is the required rate of return on the stock of Basket
Wonders?
Determination of the Required Rate of ReturnDetermination of the Required Rate of Return
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RBW = Rf + bj(RM – Rf)
RBW = 6% + 1.2(10% – 6%)
RBW = 10.8%The required rate of return exceeds the
market rate of return as BW’s beta exceeds the market beta (1.0).
RBW = Rf + bj(RM – Rf)
RBW = 6% + 1.2(10% – 6%)
RBW = 10.8%The required rate of return exceeds the
market rate of return as BW’s beta exceeds the market beta (1.0).
BWs Required Rate of ReturnBWs Required Rate of Return
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Lisa Miller at BW is also attempting to determine the intrinsic value of the stock. She is using the constant growth model. Lisa estimates that the dividend next period will be $0.50 and that BW will grow at a constant rate of 5.8%. The stock
is currently selling for $15.
What is the intrinsic value of the stock? Is the stock over or underpriced?
Lisa Miller at BW is also attempting to determine the intrinsic value of the stock. She is using the constant growth model. Lisa estimates that the dividend next period will be $0.50 and that BW will grow at a constant rate of 5.8%. The stock
is currently selling for $15.
What is the intrinsic value of the stock? Is the stock over or underpriced?
Determination of the Intrinsic Value of BWDetermination of the Intrinsic Value of BW
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The stock is OVERVALUED as the market price ($15) exceeds the
intrinsic value ($10).
The stock is OVERVALUED as the market price ($15) exceeds the
intrinsic value ($10).
$0.5010.8% – 5.8%
IntrinsicValue
=
= $10
Determination of the Intrinsic Value of BWDetermination of the Intrinsic Value of BW
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Systematic Risk (Beta)
RfReq
uire
d R
etur
n
Direction ofMovement
Direction ofMovement
Stock Y (Overpriced)
Stock X (Underpriced)
Security Market LineSecurity Market Line