Bill Tanner is a new associate at Global Western Investments. Tanner approaches his supervisor, Eric Simms, with some questions about risk. Specifically, Tanner lacks a complete understanding of many portfolio concepts, including the following:
- How the presence of a risk-free asset will affect the efficient frontier.
- The difference between total risk, systematic risk, and unsystematic risk.
- Market and Macroeconomic models.
Tanner is concerned with providing the best investment advice possible for his clients. He seeks advice from some of his former Midwestern college friends who now happen to be CFA charterholders. One of his old roommates suggests that he look into using the market model or a multifactor model based on the arbitrage pricing theory (APT).
Tanner researches alternative pricing models and starts to become confused as all the equations look similar. He writes down the following notes from memory:
- The intercept for the market model is derived from the APT.
- The intercept for the APT is the risk free rate.
- The intercept for a macroeconomic factor model is the expected return on the stock when there are no surprises to the factors.
Simms makes the predictions for Tanner shown in Exhibit 1.
Exhibit 1: Simm’s Predictions for Tanner
Beta for Stock B |
1.10 |
Beta for Stock C |
1.50 |
Correlation between Stock A and the S& 500 |
0.50 |
Standard deviation for Stock A |
28% |
Standard deviation for the S& 500 |
20% |
1-year Treasure bill rate |
5% |
Expected return on the S& 500 |
12% |
Tanner uses the market model predictions (and the S& 500 as a proxy for the market portfolio) to calculate the covariance of Stock B and C at 0.33. Using the market model, he also determines that the systematic component of the variance for Stock B is equal to 0.048.
Next, he heads out to meet a friend, Del Torres, for lunch. Torres excitedly tells Tanner about his latest work with tracking and factor portfolios. Torres says he has developed a tracking portfolio to aid in speculating on oil prices and is working on a factor portfolio with a specific set of factor sensitivities to the Russell 2000.
Which of the following is the most appropriate response to Tanner’s question about the presence of a risk-free asset and the Markowitz efficient frontier? The presence of a risk-free asset changes the characteristics of the Markowitz efficient frontier by:
A) |
reducing the total risk and the systematic risk of the market portfolio. | |
B) |
allowing risk averse investors to include in their portfolios an asset that is negatively correlated with stocks, thereby reducing the risk related to investing in equities. | |
C) |
converting the Markowitz efficient frontier from a curve into a linear risk/return relationship. | |
The presence of a risk-free asset changes the characteristics of the Markowitz efficient frontier by converting the Markowitz efficient frontier from a curve into a straight line called the capital market line (CML). (Study Session 18, LOS 66.d)
Which of the following statements best describes the concept of systematic risk? Systematic risk:
A) |
is approximately equal to total risk divided by unsystematic risk. | |
B) |
remains even for a well-diversified portfolio. | |
C) |
as measured by the standard deviation is the only risk rewarded by the market. | |
Systematic risk remains even if a portfolio is well diversified. (Study Session 18, LOS 66.g)
Are Tanner’s notes on the intercepts for the pricing models correct?
A) |
No, because the intercept for the APT is the stock’s alpha. | |
B) |
No, because the intercept for the market model is the risk-free rate. | |
C) |
No, because the intercept for the market model is the return on the stock when the return on the market is zero. | |
Tanner is incorrect with regards to the market model. The intercept is equal to the return when the market return is zero. Tanner’s other two comments on intercepts are correct. (Study Session 18, LOS 66.g)
The beta of Stock A is closest to:
(Study Session 18, LOS 66.h)
According to the predictions of the market model, did Tanner correctly calculate the covariance of Stock B and C and Stock B’s systematic component of variance?
|
Covariance |
|
Systematic component |
Tanner incorrectly calculated the covariance and correctly calculated the systematic variance component.
According to the market model, the covariance between any two stocks is calculated as the product of their betas and the variance of the market portfolio. Here, the S& 500 is a proxy for the market portfolio.
Here, CovB,C = 1.10(1.50)(0.2)2 = 0.066. Tanner incorrectly used the standard deviation of the market.
The variance of the returns on asset i consists of two components: a systematic component related to the asset’s beta, , and an unsystematic component related to firm-specific events, .
For Stock B, the systematic component = 1.102(0.2)2 = 0.048 (Study Session 18, LOS 66.a)
Did Torres correctly describe tracking and factor portfolios?
Torres reversed the concepts and is thus incorrect on both counts. A factor portfolio is a portfolio with a factor sensitivity of 1 to a particular factor and zero to all other factors. It represents a pure bet on one factor, and can be used for speculation or hedging purposes. A tracking portfolio is a portfolio with a specific set of factor sensitivities. Tracking portfolios are often designed to replicate the factor exposures of a benchmark index like the Russell 2000. (Study Session 18, LOS 66.m) |