Finance 300: Chapter 13 Quiz

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For well-diversified portfolios, unsystematic risk is relatively large.

False

Beta is a measure of relative risk.

True

Beta is the choice variable in the security market line.

True

Consider a portfolio with a beta of 0.8 and WSB Inc. with a beta of 1.1. If you add WSB to the portfolio the the total risk of the portfolio will decrease.

True

Consider the following information: Standard Deviation Beta Bob Inc. 32% 0.90 Jane Ltd. 23% 1.33 Bob has less market risk.

True

WSB Inc. has a stock beta of 0.8. If T bills yield 2.1% per year and the annual expected return on the S&P 500 is 13.4%, according to the CAPM what is the expected return on WSB stock?

11.14

WSB Inc.'s stock beta is 81% of the market's. In secondary markets you see that a a $100 face value T bill is currently trading for $94.43 and you expect the risk premium on the S&P 500 to be 1.6 times the yield on the T bill. Given the information above, what is the expected return on WSB's stock for the upcoming year?

13.54

WSB Inc. has a stock beta of 1.15 and an annual expected return of 13.2%. If you expect the S&P 500 to earn 12% next year, what is the intercept of the security market line?

4

WSB Inc.'s stock beta is 40% of the market's. In secondary markets you see that a a $100 face value T bill is currently trading for $97.11 and you expect the risk premium on the S&P 500 to be 2.9 times the yield on the T bill. Given the information above, what is the expected return on WSB's stock for the upcoming year?

6.43

WSB Inc. has a stock beta of 1.18 and an annual expected return of 12.9%. If you expect the S&P 500 to earn 12% next year, what is the intercept of the security market line?

7

WSB Inc. has a stock beta of 0.8. If T bills yield 2.5% per year and the annual expected return on the S&P 500 is 12.1%, according to the CAPM what is the appropriate risk premium WSB stockholders should receive?

7.68

An asset's beta is the intercept for the security market line.

False

An expected change in GDP is a systematic risk.

False

An unanticipated labor strike at John Deere is a market risk,

False

As you increase the number of randomly chosen stocks in your portfolio from one to a thousand you approach an asymptote at close to zero.

False

As you increase the number of randomly chosen stocks in your portfolio from one to a thousand you approach an asymptote which represents the amount of idiosyncratic risk left in your portfolio.

False

Assets below the security market line have a reward-to-risk ratio that is higher than the next best investment of similar risk.

False

Assets on the security market line are underpriced.

False

Beta is expressed in percentages.

False

Beta is expressed in squared percentages.

False

Comparing undiversified portfolios to the market portfolio, the proportion of their total risks that are systematic risks are about the same.

False

Consider a portfolio with a beta of 1.5 and WSB Inc. with a beta of 1.3. If you add WSB to the portfolio the the market risk of the portfolio will increase.

False

Consider the following information: Standard Deviation Beta Bob Inc. 32% 0.90 Jane Ltd. 23% 1.33 Bob has less total risk.

False

Consider the following information: Standard Deviation Beta Bob Inc. 32% 0.90 Jane Ltd. 23% 1.33 Jane should have the lower expected return.

False

Consider the following situation, (E[rK] - rf) ÷ betaK < (E[rm] - rf) ÷ betam There will be net selling pressure on Asset K, driving down its expected return and reward-to-risk ratio.

False

Diversification can substantially reduce the variability of returns with an equivalent reduction in expected returns.

False

For a single asset, the standard deviation of returns is a measure of systematic total risk in percent.

False

If you hold the Dow Jones Industrials you are not well-diversified because you are holding leading firms in a few very similar industries.

False

If you hold the S&P 500 you are not very close to the asymptotic level of nondiversifiable risk.

False

If you own fifty stocks that span twenty different industries you are undiversified.

False

In a world with uncertainty, there must be a finite number of states.

False

In equilibrium, (E[ri] + rf) ÷ betai = (E[rm] + rf) ÷ betam

False

In equilibrium, assets can have many different reward-to-risk ratios.

False

In financial markets, there is a reward for bearing risk unnecessarily.

False

In terms of risk reduction, there are no limits to the benefits of diversification.

False

In the CAPM, the average risk premium is betai × (E[rM] - rf)

False

Increasing the number of randomly chosen stocks from one to two makes a relatively large reduction in systematic risk.

False

Manitowoc has a beta of 2.0, which means it is about half as sensitive to systematic surprises as the S&P 500.

False

Random good luck is a market risk.

False

Systematic risks are surprises that result in the uncorrelated price changes of a large number of assets.

False

The "expected" in expected return means the mostly likely realized return if the process is repeated many times.

False

The beta coefficient measures the sensitivity of an asset's returns to surprises surprises that affect a small number of assets in an uncorrelated way.

False

The beta coefficient measures the sensitivity of an asset's returns to surprises that affect a small number of assets in a correlated way.

False

The beta of the S&P 500 is zero.

False

The expected component of news changes an investment's expected future cash flows, and thereby its price.

False

The expected return on a portfolio can be expressed as, E[rp] = p1E[r1] + p2E[r2] + ... + pmE[rm]

False

The expected return on a portfolio, E[rp] = w1E[r1] + w2E[r2] + ... + wmE[rm], uses portfolio weights but not probabilities.

False

The expected return on an asset is based on the probabilities of the m possible state-contingent outcomes.

False

The market portfolio is a theoretical portfolio that holds a little bit of all private but not public risky assets in the economy.

False

The market risk premium is the choice variable in the security market line.

False

The total risk for a diversified portfolio is much greater than the systematic risk.

False

There are expected and unexpected components to expected returns.

False

There are positive and increasing marginal diversification benefits when increasing the number of randomly chosen stocks in your portfolio.

False

There is not a reward for bearing systematic risk.

False

This is the CAPM, E[ri] = rf + betai × (E[rM] + rf)

False

When calculating the forward looking variance, you divide the sum of the squared deviations from the expected value by T-1.

False

You can hold a true market portfolio because it includes risky publicly traded assets.

False

You like assets that are below the security market line.

False

betai = sensitivity of asset i to unsystematic risk ÷ sensitivity of average asset to systematic risk.

False

betai = sensitivity of average asset to systematic risk ÷ sensitivity of asset i to systematic risk

False

expected return = realized return + anticipated return

False

unexpected return = asset-specific portion + unsystematic portion

False

A stock with a beta with a beta of 0.50 has about half the sensitivity to systematic surprises as the market portfolio.

True

All else equal, if Pixar has unexpected blockbuster movie, the market portfolio will not move.

True

All else equal, if beta decreases, the slope of the SML will remain the same.

True

All else equal, if the riskless rate increases, the slope of the SML will flatten.

True

An asset with a beta of zero has no systematic risk.

True

Announcements and news contain both an expected component and a surprise component.

True

As you increase the number of randomly chosen stocks in your portfolio from one to a thousand you eliminate a substantial part of the risk, but not all of it.

True

As you increase the number of randomly chosen stocks in your portfolio from one to a thousand you eliminate a substantial part of the total risk, but not all of it.

True

As you increase the number of randomly chosen stocks in your portfolio from one to a thousand, the percent of your total risk that is idiosyncratic risk decreases.

True

Assets above the security market line are positive NPV winners.

True

Assets below the security market line have a reward-to-risk ratio that is lower than the next best investment of similar risk.

True

Assets on the security market line are zero NPV investments.

True

At any point in time, the unexpected return can be either positive or negative.

True

Because it is difficult and expensive to diversify away systematic risk, the expected return on a risky asset depends only on its market risk.

True

Consider a portfolio with a beta of 1.3 and WSB Inc. with a beta of 1.5. If you add WSB to the portfolio the the market risk of the portfolio will increase.

True

Consider the following information: Standard Deviation Beta WSB Inc. 22% 1.30 Badger Ltd. 29% 1.10 WSB should have the higher expected return.

True

Consider the following portfolio: JCI MAN ROK HOG Portfolio Weight 20% 35% 25% 20% Beta 1.2 1.5 1.4 1.3 You expect this portfolio to be more sensitive to asset-specific surprises than the S&P 500.

True

Consider the following situation, (E[rN] - rf) ÷ betaN = (E[rm] - rf) ÷ betam Asset N is correctly priced.

True

Consider this portfolio: T bill S&P 500 Portfolio Weight 50% 50% The beta of the portfolio is one half.

True

Diversifiable risk can be eliminated by combining assets that are not perfectly correlated together into a portfolio.

True

In the CAPM, the slope reflects the average compensation for bearing systematic risk in the market.

True

Market risk cannot be eliminated by combining assets that are not perfectly correlated together into a portfolio.

True

Systematic risks are surprises that result in the correlated price changes of a large number of assets.

True

The "expected" in expected return means the average if the process is repeated many times.

True

The CAPM accounts for the pure time value of money through the riskless rate.

True

The expected return on a portfolio can be expressed as, E[rp] = w1E[r1] + w2E[r2] + ... + wmE[rm]

True

The forward looking variance uses the probabilities to weight the squared deviations from the expected value.

True

The market portfolio is a theoretical portfolio that holds a little bit of every risk asset in the economy.

True

The proportion of a portfolio's total risk that is market risk decreases as diversification decreases.

True

The riskless rate is the intercept for the security market line.

True

The security market line provides the internal rates of return for assets that plot on it.

True

There is a minimum level of risk that cannot be diversified away and that is the market portion.

True

There is a minimum level of total risk that cannot be diversified away.

True

Unsystematic risk and idiosyncratic risk are the same thing.

True

Unsystematic risk and unique risk are the same thing.

True

When applied to asset returns, the forward looking standard deviation is in percent.

True

You cannot hold a true market portfolio.

True

You want to avoid assets that are below the security market line.

True

betai = sensitivity of asset i to systematic risk ÷ sensitivity of average asset to systematic risk.

True

betai = sensitivity of asset i to systematic risk ÷ sensitivity of the market portfolio to systematic risk.

True

realized return = expected return + unexpected return

True

You can hold a true market portfolio.

False

A stock with a beta with a beta of 0.50 has about twice the sensitivity to systematic surprises as the market portfolio.

False

As you increase the number of randomly chosen stocks in your portfolio from one to a thousand you eliminate a substantial part of the systematic risk, but not all of it.

False

As you increase the number of randomly chosen stocks in your portfolio from one to a thousand, the proportion of your diversifiable risk that is asset-specific decreases.

False

As you increase the number of randomly chosen stocks in your portfolio from one to a thousand, the proportion of your nondiversifiable risk that is market risk increases.

False

Asset-specific risk cannot be eliminated by combining assets that are not perfectly correlated together into a portfolio.

False

Assets above the security market line are negative NPV losers.

False

Assets above the security market line are overpriced.

False

Assets on the security market line are positive NPV investments.

False

The beta coefficient measures an asset's diversifiable risk.

False

The beta coefficient measures an asset's idiosyncratic risk.

False

The beta coefficient measures an asset's total risk.

False

The beta of the S&P 500 is more than the market's.

False

A beta more than one implies the asset has more systematic risk than the overall market.

True

A parts shortage at Ford is a unique risk.

True

Generally, realized returns are not equal to expected returns.

True

If we hold only assets in one industry then we are exposing ourselves to risks that we could partially diversify away.

True

If we know a physical asset's systematic risk, we can use the CAPM to determine its expected return.

True

In the CAPM, the intercept reflects compensation for waiting and inflation.

True

The capital asset pricing model assumes all reward-to-risk ratios are equal.

True

The capital asset pricing model is the equation for a line.

True

unexpected return = market portion + idiosyncratic portion

True

unexpected return = systematic portion + unsystematic portion

True


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