The expected rate of return of a portfolio is the weighted average of the component asset
expected returns with the investment proportions as weights.
The variance of a portfolio is a sum of the contributions of the component-security variances plus terms involving the correlation among assets.
Even if correlations are positive, the portfolio standard deviation will be less than the
weighted average of the component standard deviations, as long as the assets are not perfectly
positively correlated. Thus, portfolio diversification is of value as long as assets are
less than perfectly correlated.
The contribution of an asset to portfolio variance depends on its correlation with the other
assets in the portfolio, as well as on its own variance. An asset that is perfectly negatively
correlated with a portfolio can be used to reduce the portfolio variance to zero. Thus, it
can serve as a perfect hedge.
The efficient frontier of risky assets is the graphical representation of the set of portfolios
that maximizes portfolio expected return for a given level of portfolio standard deviation.
Rational investors will choose a portfolio on the efficient frontier.
A portfolio manager identifies the efficient frontier by first establishing estimates for the
expected returns and standard deviations and determining the correlations among them.
The input data are then fed into an optimization program that produces the investment
proportions, expected returns, and standard deviations of the portfolios on the efficient
frontier.
In general, portfolio managers will identify different efficient portfolios because of differences in the methods and quality of security analysis. Managers compete on the quality of their security analysis relative to their management fees.
If a risk-free asset is available and input data are identical, all investors will choose the
same portfolio on the efficient frontier, the one that is tangent to the CAL. All investors
with identical input data will hold the identical risky portfolio, differing only in how much
each allocates to this optimal portfolio and to the risk-free asset. This result is characterized
as the separation principle of portfolio selection.
The single-index representation of a single-factor security market expresses the excess
rate of return on a security as a function of the market excess return: Ri = αi + βiRM + ei.
This equation also can be interpreted as a regression of the security excess return on the
market-index excess return. The regression line has intercept αi and slope βi and is called the security characteristic line.
In a single-index model, the variance of the rate of return on a security or portfolio can be
decomposed into systematic and firm-specific risk. The systematic component of variance
equals β2 times the variance of the market excess return. The firm-specific component is the variance of the residual term in the index model equation.
The beta of a portfolio is the weighted average of the betas of the component securities.
A security with negative beta reduces the portfolio beta, thereby reducing exposure to
market volatility. The unique risk of a portfolio approaches zero as the portfolio becomes
more highly diversified.
