Topic 10 - Portfolio Theory & CAPM Flashcards
(47 cards)
How do portfolio weights indicate the allocation of investments in a portfolio, and what is the formula for calculating the weight of an individual investment?
Portfolio weights show the fraction or percentage of the total portfolio value allocated to each security.
The weight of the i-th investment is calculated as:
x = Value of Investment i/Total Value of Portfolio
All weights add up to 1
How are the expected return and the realized return of a portfolio with multiple securities calculated?
The expected return for the portfolio as:
E[Rp] = x1E[R1] + x2E[R2] +β¦ xnE[Rn]
- where xi are the weights and E[R] are the expected returns for the individual securities
The realized return of a portfolio is calculated as:
Rp= x1R1 + x2R2 +β¦ xnRn
where xi are the weights and R are the realized returns of the individual securities
How is the variance of a portfolio with two stocks calculated?
The variance of a portfolio with two stocks (π π=π₯1π 1+π₯2π 2) is calculated using:
Var(π π)=π₯1^2SD(π 1)^2+π₯2^2 SD(π 2)^2+2π₯1π₯2Corr(π 1,π 2)SD(π 1)SD(π 2)
How is the variance of an equally weighted portfolio calculated, and what does it imply about diversification?
In an equally weighted portfolio each security has an equal investment, so with so with n securities x1=x2 = β¦ = xn = 1/n
The variance is calculated as:
Var(Rp)= (1/n) x Avg variance of the individual securities + (1 - 1/n) x Average covariance between the securities
This formula shows that as the number of securities increases, the impact of individual security variance decreases, emphasizing the benefits of diversification.
How does decreasing correlation between securities in a portfolio affect diversification and volatility?
As correlation decreases, expected returns remain unchanged, but the diversification effect strengthens. With the same expected return and volatility, more negatively correlated securities are better. A correlation of -1 expands the Efficient Frontier, reducing volatility and increasing diversification.
How does the Tangent Portfolio differ from the Minimum Variance Portfolio, and why is the Tangent Portfolio optimal in terms of the Sharpe ratio?
Minimum Variance Portfolio: The point on the Efficient Frontier with the lowest risk.
Tangent Portfolio: The portfolio with the highest Sharpe ratio, offering the best return per unit of risk.
The minimum variance point offers the lowest risk but not the best risk-return tradeoff. The Tangent Portfolio provides the optimal balance of risk and return by maximizing the return per unit of risk, thus offering a better overall tradeoff.
What defines an inefficient portfolio, and when is it considered dominated by another portfolio?
An inefficient portfolio is dominated by another portfolio when it is possible to find another portfolio that is better in terms of expected return or volatility and no worse in the other parameter. In other words, an inefficient portfolio does not provide the best return for its level of risk.
What happens to the Efficient Frontier when adding a third stock to a portfolio, and how does this affect diversification and expected return?
Adding a third stock to the portfolio creates an entire region of risk and return possibilities rather than a single curve. The efficient portfolios, offering the highest possible expected return for a given level of volatility, form the Efficient Frontier.
When adding stock C (especially with negative correlation), the frontier expands, providing higher expected returns (E[R]) for the same level of risk, enhancing diversification.
How does adding more assets to a portfolio improve the set of available risk and return combinations?
Adding more assets improves the risk-return combinations due to increased diversification possibilities.
Despite a restriction on too much diversification, the mix of assets with more stocks (e.g., 10 stocks) is better than fewer stocks (e.g., 3 stocks) because it enhances diversification and reduces volatility, providing better risk-return possibilities.
It is advised not to hand-pick stocks, even if some are less preferred, as increased diversification is beneficial for the portfolio.
How do risk-free saving and borrowing strategies affect portfolio diversification and risk management?
Diversification: Including all risky investments in the Efficient Frontier maximizes diversification.
Risk-Free Investment: Allocating a percentage of the portfolio to risk-free assets like treasury bills reduces risk.
Aggressive Investing: Aggressive investors might borrow at a risk-free rate to invest in risky assets, leveraging up expected returns and increasing risk and return, as seen by increased volatility on the Efficient Frontier.
Risk Preferences: Adjust strategies according to individual risk preferences.
How do the expected return and volatility of a portfolio change when combining a risk-free asset with a risky portfolio?
Expected Return: The expected return is equal to the risk-free rate plus a fraction of the portfolioβs risk premium:
ExpectedReturn
=ππ+π₯(πΈ[π
π]βππ)
Volatility: The volatility is a fraction of the portfolioβs volatility, based on the amount invested in the risky portfolio:
Volatility
=π₯SD(π
π)
Risk-Free Asset: The risk-free asset has a variance and covariance of 0, so the portfolioβs risk level depends only on the risky assets.
What is the Sharpe Ratio, and how is it used to determine the best portfolio of risky assets?
The Sharpe Ratio of portfolio
π is calculated as:
SharpeRatio
=πΈ[π
π]βππ/SD(π
π)
Interpretation: Combining a portfolio of risky assets with a risk-free asset forms a straight line on a plot of expected return vs. volatility. (CML)
Optimal Portfolio: The best portfolio of risky assets will produce a straight line with the steepest slope, representing the highest Sharpe Ratio.
Tangent Portfolio: The line tangent to the Efficient Frontier of risky assets has the highest Sharpe Ratio, with the tangency point indicating the expected return and volatility of the Tangent Portfolio.
What is the Tangent Portfolio and why is it significant?
The Tangent Portfolio has the highest Sharpe ratio, offering the best risk-return tradeoff.
It lies on the Capital Market Line (CML), connecting risk-free investments and the Tangent Portfolio, providing optimal risk-return.
Why is the Tangent Portfolio considered the optimal portfolio?
The Tangent Portfolio has the highest Sharpe ratio, providing the biggest reward per unit of volatility. All other risky portfolios lie below the tangent line.
Why is finding the efficient (tangent) portfolio not feasible without assumptions, and what do the assumptions imply?
Finding the efficient portfolio requires knowing all expected returns, volatilities, and correlations of every investment, which isnβt feasible. CAPM assumptions imply the tangent portfolio is the market portfolio.
Why is the market portfolio considered efficient under CAPM assumptions?
When CAPM assumptions hold, rational investors buy an efficient mix of assets, making the market portfolio efficient. The Capital Market Line (CML) is tangent to the Efficient Frontier at the market portfolio.
What is the formula for expected return according to CAPM, and what does Beta represent?
E[R] = rf + B * risk premium(Emkt - rf)
Beta measures the stocks volatility due to market risk and its sensitivity to market movements
Law of One Price states that investments with similar risk should have the same expected return
Is there a clear relationship between an individual securityβs volatility and its expected return?
No
What does the Security Market Line (SML) represent, and what does it show according to CAPM?
The SML shows where individual securities should lie when expected returns are plotted against betas.
It represents the expected return for each security as a function of its beta with the market. According to CAPM, the market portfolio is efficient, so all stocks and portfolios should lie on the SML.
What are the key conclusions of the CAPM based on its assumptions?
The market portfolio is the efficient portfolio on the Efficient Frontier and offers the highest Sharpe ratio. It lies on the Capital Market Line (CML), providing the best risk-return combination by combining with the risk-free asset.
The risk premium for any investment is proportional to its beta with the market, reflecting the excess return for taking on additional systematic risk.
How do volatility and correlation affect an equally weighted portfolio with
π stocks, and what happens as
π increases?
Volatility (SD): Decreases as
π increases, due to diversification.
Diversification: Reduces unsystematic risk, but only diversifies independent, not common risk.
Effect: As π gets very large, diversification benefits taper off.
How does the volatility of an equally weighted portfolio change with the number of stocks, and what risk remains?
Declining Volatility: Volatility decreases as the number of stocks in the portfolio increases.
Residual Market Risk: Even in a very large portfolio, market risk remains, despite the elimination of diversifiable/independent risk.
Where is the worst risk-return tradeoff on the efficient frontier, and why?
Location: Below the minimum variance point.
Reason: Portfolios here have higher risk (variance) but offer lower returns than the minimum variance portfolio.
Inefficiency: These are inefficient portfolios because better returns can be achieved with the same or lower risk by moving up the efficient frontier.
What does the Capital Asset Pricing Model (CAPM) determine, and what factors does it consider?
CAPM Purpose: Determines the expected return of an individual asset based on its systematic risk (market risk) compared to the overall market.
Expected Return (E[R]): The return you expect to earn from the investment.
Risk-Free Rate (r_f): The return from a risk-free investment, like government bonds.
Market Return (E[R_m]): The average return of the market (e.g., S&P 500).
Beta (Ξ²): Measures how much the investmentβs returns move compared to the market.
Ξ² = 1: The investment is as risky as the market.
Ξ² > 1: The investment is riskier than the market.
Ξ² < 1: The investment is less risky than the market.
