Risk and Return Professor Thomas Chemmanur. 22 1. Risk Aversion ASSET – A: EXPECTED PAYOFF =...
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![Page 1: Risk and Return Professor Thomas Chemmanur. 22 1. Risk Aversion ASSET – A: EXPECTED PAYOFF = 0.5(100) + 0.5(1) = $50.50 ASSET – B:PAYS $50.50 FOR SURE.](https://reader030.fdocuments.in/reader030/viewer/2022032607/56649ec55503460f94bcfb36/html5/thumbnails/1.jpg)
Risk and Return
Professor Thomas Chemmanur
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22
1. Risk Aversion
ASSET – A: EXPECTED PAYOFF
= 0.5(100) + 0.5(1)
= $50.50
ASSET – B: PAYS $50.50 FOR SURE WHICH ASSET WILL A RISK AVERSE INVESTOR
CHOOSE? RISK NEUTRAL INVESTORS INDIFFERENT BETWEEN A AND B.
RISK LOVING?
PROB = 0.5
PROB = 0.5 $100
$1
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33
Certainty Equivalent
THE CERTAINTY EQUIVALENT OF A RISK AVERSE INVESTOR THE AMOUNT HE OR SHE WILL ACCEPT FOR SURE INSTEAD OF A RISKY ASSET.
THE MORE RISK-AVERSE THE INVESTOR, THE LOWER HIS CERTAINTY EQUIVALENT.
RETURN FROM ANY ASSET
Pe = END OF PERIOD PRICE Pb = BEGINNING OF PERIOD PRICE D = CASH DISTRIBUTIONS DURING THE PERIOD
e b
b
(P - P ) + D =
Pr
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44
EXPECTED UTILITY MAXIMIZATION
IF RETURNS ARE NORMALLY DISTRIBUTED, RISK-AVERSE INDIVIDUALS CAN MAXIMIZE EXPECTED UTILITY BASED ONLY ON THE MEAN, VARIANCE, AND COVARIANCE BETWEEN ASSET RETURNS.
PROBLEM
STATE PROB KELLY Vs. WATER
(S) (ps) PROD (r1S) (r2S)
BOOM 0.3 100% 10%
NORMAL 0.4 15% 15%
RECESSION 0.3 -70% 20%
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55
Solution to Problem
EXPECTED RETURN
VARIANCE,
n
s ss=1
= r p r1 = 0.3(100) + 0.4(15) + 0.3(-70) = 15%r
2 = 0.3(10) + 0.4(15) + 0.3(20) = 15%r
n2 2
s ss=1
= ( )p r r
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66
Solution to Problem
STANDARD DEVIATION,
SIMILARLY,
2 2 2 21
2
= 0.3(100 - 15) + 0.4(0) + 0.3(-70 - 15)
= 4335(%)
1 = 4335 = 65.84%
2 2 2 22
2
= 0.3(10 - 15) + 0.4(0) + 0.3(20 - 15)
= 15(%)
2 = 15 = 3.872%
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77
Solution to Problem
COVARIANCE BETWEEN ASSETS 1 & 2
= 0.3(100-15)(10-15) + 0.4(15-15)*(15-15) +0.3(-70-15)(20-15)
= -255(%)2
CORRELATION CO-EFFICIENT
n
1,2 s 1S 1 2 2s=1
= ( )( )Sp r r r r
1,21,2
1 2
-255 = = = -1.00
(65.84)(3.872)
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88
Solution to Problem
PORTFOLIO MEAN AND VARIANCE
PORTFOLIO WEIGHTS Xi , i = 1,…, N.
X1 = 0.5 OR 50% X2 = 0.5 OR 50%
= 0.5(15) + 0.5(15)
= 15%
= 0.52 (4335) + 0.52(15) + 2(0.5)(0.5)(-255)
= 960(%)2
1 1 2 2 = x + xPr r r
2 2 2 2 21 1 2 2 1 2 12 = x + x + 2x xP
= 960 = 30.98P
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99
Choosing Optimal Portfolios
IN A MEAN-VARIANCE FRAMEWORK, THE OBJECTIVE OF INDIVIDUALS WILL BE MAXIMIZE THEIR EXPECTED RETURN, WHILE MAKING SURE THAT THE VARIANCE OF THEIR PORTFOLIO RETURN (RISK) DOES NOT EXCEED A CERTAIN LEVEL.
1,2 = -1 PERFECTLY NEGATIVELY CORRELATED
RETURNS
1,2 = +1 PERFECTLY POSITIVELY CORRELATED
RETURNS
-1 1,2 +1
MOST STOCKS HAVE POSITIVELY CORRELATED (IMPERFECTLY) RETURNS.
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1010
Optimal Two-Asset Portfolios
CASE (1)
Pr
2r
1r
*Pr
1 2
1,2 -1
P
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1111
Optimal Two-Asset Portfolios
CASE (2)
Pr
2r
1r
*Pr
1 2
1,2 +1
*P
1,2 1,2' <
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1212
Optimal Two-Asset Portfolios
CASE (3)
DIVERSIFICATION IS POSSIBLE ONLY IF THE TWO ASSET RETURNS ARE LESS THAN PERFECTLY POSITIVELY CORRELATED.
12 +1 Pr
2r
1r
1 2 P
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1313
MEAN AND VARIANCE OF AN N-ASSET PORTFOLIO
IF N = 3
NOTE THAT
1 1 2 2 N N = x + x + ... + xPr r r r
2 2 2 2 2 2 21 1 2 2 N N
1 2 12 1 3 13 2 3 23
= [x + x + ... + x ]
+ 2[x x + x x + x x + similar
terms for all possible pairs of the N assets]
P
2 2 2 2 2 2 21 1 2 2 3 3
1 2 12 1 3 13 2 3 23
= [x + x + ... + x ]
+ 2[x x + x x + x x ]P
= , SINCE ijij i j ij ij
i j
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1414
PROBLEM – 1
1 1 1
2 2 2
3 3
12 13 23
1 1 2 2 3 3
1 1 13 3 3
14% = 6% x = 1/3
8% = 3% x = 1/3
12% = 2%
= 0.5 = 0.6 = 1
= x + x + x
= (14) + (8) + (12)
= 11.33%
P
r
r
r
r r r r
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1515
PROBLEM – 1
2 2 2 2 2 2 21 1 13 3 3
1 1 1 13 3 3 3
1 13 3
2
= [( ) 6 + ( ) 3 + ( ) 2 ]
+ 2[( )( )(6)(3)(0.5) + ( )( )(6)(2)(0.6)
+ ( )( )(3)(2)(1) ]
= 10.36(%)
P
= 10.36 = 3.22%P
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1616
RISKY ASSETS WITH LENDING AND BORROWING
NOTE THAT, FOR THE RISK-FREE ASSET, F = 0.
FURTHER, WHILE “LENDING” IMPLIES THAT XF > 0,
“BORROWING” IMPLIES THAT XF < 0.
PROBLEM – 2 (A)
M M
F MF F
2 2 2 2
15%, = 16%, x = 0.5
5%, = 0, = 0, x = 0.5
0.5(15) + 0.5(5) = 10%
= (0.5) 16 + 0 + 0 = 64(%)
= 64 = 8%
M
F
P
P
P
r
r
r
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1717
PROBLEM – 2 (B)
SINCE YOU ARE BORROWING AN AMOUNT EQUAL TO YOUR WEALTH W AT THE RISK-FREE RATE,
NOTICE THAT
-WF Wx = = -1 W + W
Wx = = +2M
Fx + x = -1 + 2 = 1M
Pr = (-1)(5) + 2(15) = 25%2 2 2 2 2
F F M F M MF
2 2 2
= [x + x + 2 x x ]
= 2 (16) = 1024(%)
= 1024 = 32%
P M
P
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1818
OPTIMAL PORTFOLIO CHOICE BY MV INVESTORS
PICK x1, x2, ….., xN TO
SUBJECT TO THE RESTRICTIONS:
(CANNOT INVEST MORE THAN AVAILABLE WEALTH, INCLUDING BORROWING, ETC.)
PMAXIMIZE r
P Pˆ(1) (RISK-TOLERANCE)
1 2 N(2) x + x + .... x = 1
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1919
OPTIMAL PORTFOLIO CHOICE BY MV INVESTORS
SOLUTION WITH NO RISK-FREE ASSET
NOT ALL INVESTORS WILL CHOOSE TO HOLD THE MINIMUM VARIANCE PORTFOLIO. THE PRECISE LOCATION OF AN INVESTOR ON THE EFFICIENT FRONTIER DEPENDS ON THE RISK σP HE IS WILLING TO TAKE.
P
Pr
MINVARIANCE
r
MIN-VARIANCE
**
*
*
**
*
*
*
EFFICIENT FRONTIER
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2020
OPTIMAL PORTFOLIO CHOICE BY MV INVESTORS
SOLUTION WITH RISK FREE LENDING / BORROWING
THE SET OF RETURNS YOU CAN GENERATE BY COMBINING A RISK-FREE AND RISKY ASSET LIES ON THE STRAIGHT LINE JOINING THE TWO TO GO ON THE LINE SEGMENT MT, AN INVESTOR WILL BORROW AT THE RISK-FREE RATE rF.
P
Pr
Fr
M *
TEFFICIENT SET IS THE STRAIGHT LINE:rFMT
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2121
OPTIMAL PORTFOLIO CHOICE BY MV INVESTORS
WHEN INVESTORS AGREE ON THE PROBABILITY DISTRIBUTION OF THE RETURNS OF ALL ASSETS:
MARKET EQUILIBRIBUM IF INVESTORS AGREE ON THE DISTRIBUTIONS OF ALL
ASSETS RETURNS, THEY WILL AGREE ON THE COMPOSITION OF THE PORTFOLIO M: THE “MARKET PORTFOLIO”.
IN SUCH A WORLD, INVESTORS WILL ALL INVEST THEIR WEALTH BETWEEN TWO PORTFOLIOS THE RISK-FREE ASSET AND THE MARKET PORTFOLIO.
THE MARKET PORTFOLIO IS THE PORTFOLIO OF ALL RISKY ASSETS IN THE ECONOMY, WEIGHTED IN PROPORTION TO THEIR MARKET VALUE.
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2222
RISK OF A WELL-DIVERSIFIED PORTFOLIO
WHAT HAPPENS WHEN YOU INCREASE THE NUMBER OF STOCKS IN A PORTFOLIO?
IT CAN BE SHOWN THAT THE TOTAL PORTFOLIO VARIANCE GOES TOWARD THE AVERAGE COVARIANCE BETWEEN TWO STOCKS AS N
No. of Assets in a Portfolio
P
ij
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2323
SYSTEMATIC AND UNSYSTEMATIC RISK
SYSTEMATIC RISK:THIS IS RISK WHICH AFFECTS A LARGE NUMBER OF ASSETS TO A GREATER OR LESSER DEGREE
THEREFORE, IT IS RISK THAT CANNOT BE DIVERSIFIED AWAY
E.G. RISK OF ECONOMIC DOWNTURN WITH OIL PRICE INCREASE
UNSYSTEMATIC RISK:RISK THAT SPECIFICALLY AFFECTS A SINGLE ASSET OR SMALL GROUP OF ASSETS
CAN BE DIVERSIFIED AWAY E.G. STRIKE IN A FIRM, DEATH OF A CEO, INCREASE
IN RAW MATERIALS PRICE
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2424
SYSTEMATIC AND UNSYSTEMATIC RISK
TOTAL RISK ( 2 OR ) = SYSTEMATIC (ß OR im/ m2 )
+ UNSYSTEMATIC RISK
SINCE UNSYSTEMATIC RISK IS DIVERSIFIABLE, ONLY SYSTEMATIC OR MARKET RISK IS “PRICED”
i IS THE APPROPRIATE MEASURE OF SYSTEMATIC RISK
2
( , )
( )i m im
im m
Cov R R
Var R
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2525
THE CAPITAL ASSET PRICING MODEL
[ ]i F i m FR R R R
F
M
EXPECTED RETURN ON ANY ASSET i
= RISK FREE RATE [T-BILLS OR OTHER TREASURY BONDS]
= EXPECTED RETURN ON THE MARKET PORTFOLIO
iR
R
R
i : BETA OF ith STOCK
SECURITY MARKET LINE
m = 1
RF
M R
iR
M FSLOPE: ( - )R R
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2626
APPLICATION OF THE CAPM
1. IN ESTIMATING THE COST OF CAPITAL FOR A FIRM 2. AS A BENCHMARK IN PORTFOLIO PERFORMANCE
MEASUREMENT
PROBLEM – 3 SECURITY MARKET LINE:
STOCK 1:
STOCK 2:
0.04 0.08i ir
1 0.04 (0.5)(0.08) 0.08 8%r
2 0.04 2(0.08) 0.2 20%r
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2727
Problem 3
PROBLEM 4
0
0
$2 g = 0.04 r = 0.08
2(1+g) 2(1.04)P = $52 / SHARE
r-g 0.08 0.04
D
1 1
2 2
6%; 0.5
0.5( - ) 6% (1)
12%; 1.5
1.5( - ) 12% (2)
F m F
F m F
r
r r r
r
r r r
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2828
Problem 4
SUBTRACTING (1) FROM (2),
FROM (1),
- 6%m Fr r
0.5(6) 6%
6 - 0.5(6) 3%
9%
F
F
m
r
r
r
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2929
ESTIMATING BETA
WE CAN ESTIMATE BETA FOR EACH STOCK BY FITTING ITS RETURN OVER TIME AGAINST THE RETURN OF THE MARKET PORTFOLIO (S&P 500 INDEX), USING LINEAR REGRESSION (USE EXCEL TO DO THIS):
itR
i
ERROR TERM: uit “BEST” STRAIGHT
LINE THAT EXPLAINS THE DATA
mtR
SLOPE = i
it i i mt itR R u