投资学第10版课后习题答案Chap007
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CHAPTER 7: OPTIMAL RISKY PORTFOLIOS
PROBLEM SETS
1. (a) and (e). Short-term rates and labor issues are factors that
are common to all firms and therefore must be considered as market risk factors. The remaining three factors are unique to this
corporation and are not a part of market risk.
2. (a) and (c). After real estate is added to the portfolio, there are
four asset classes in the portfolio: stocks, bonds, cash, and real estate. Portfolio variance now includes a variance term for real
estate returns and a covariance term for real estate returns with returns for each of the other three asset classes. Therefore,
portfolio risk is affected by the variance (or standard deviation) of real estate returns and the correlation between real estate
returns and returns for each of the other asset classes. (Note that the correlation between real estate returns and returns for cash is most likely zero.)
3. (a) Answer (a) is valid because it provides the definition of the
minimum variance portfolio.
4. The parameters of the opportunity set are:
E(r S) = 20%, E(r B) = 12%, σS = 30%, σB = 15%, ρ = From the standard deviations and the correlation coefficient we
generate the covariance matrix [note that (,)S B S B Cov r r ρσσ=⨯⨯]:
Bonds
Stocks Bonds 225 45 Stocks 45
900
The minimum-variance portfolio is computed as follows:
w Min (S ) =1739.0)
452(22590045
225)(Cov 2)(Cov 2
22=⨯-+-=-+-B S B S B S B ,r r ,r r σσσ w Min (B ) = 1 =
The minimum variance portfolio mean and standard deviation are:
E (r Min ) = × .20) + × .12) = .1339 = %
σMin = 2/12
222)],(Cov 2[B S B S B B S S
r r w w w w ++σσ = [ 900) + 225) + (2 45)]1/2
= %
5.
Proportion in Stock Fund Proportion in Bond Fund
Expected Return
Standard Deviation
% % % %
minimum
tangency
Graph shown below.
6. The above graph indicates that the optimal portfolio is the
tangency portfolio with expected return approximately % and standard deviation approximately %.
7. The proportion of the optimal risky portfolio invested in the stock
fund is given by:
2
22[()][()](,)
[()][()][()()](,)S f B B f S B S S f B B f S
S f B f S B E r r E r r Cov r r w E r r E r r E r r E r r Cov r r σσσ-⨯--⨯=
-⨯+-⨯--+-⨯
[(.20.08)225][(.12.08)45]
0.4516[(.20.08)225][(.12.08)900][(.20.08.12.08)45]
-⨯--⨯=
=-⨯+-⨯--+-⨯
10.45160.5484B w =-=
The mean and standard deviation of the optimal risky portfolio are:
E (r P ) = × .20) + × .12) = .1561 = % σp = [ 900) +
225) + (2
× 45)]1/2
= %
8. The reward-to-volatility ratio of the optimal CAL is:
().1561.08
0.4601.1654
p f
p
E r r σ--=
=
9. a. If you require that your portfolio yield an expected return of
14%, then you can find the corresponding standard deviation from the optimal CAL. The equation for this CAL is:
()().080.4601p f
C f C C P
E r r E r r σσσ-=+
=+
If E (r C ) is equal to 14%, then the standard deviation of the portfolio is %.