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,Click to edit Master title style,Click to edit Master text styles,Second level,Third level,Fourth level,Fifth level,INVESTMENTS,|,BODIE, KANE, MARCUS,5-,*,INVESTMENTS,|,BODIE, KANE, MARCUS,Click to edit Master title style,Click to edit Master text styles,Second level,Third level,Fourth level,Fifth level,Copyright 2011 by The McGraw-Hill Companies, Inc. All rights reserved.,McGraw-Hill/Irwin,CHAPTER 5,Introduction to Risk, Return, and the Historical Record,Interest Rate Determinants,Supply,Households,Demand,Businesses,Governments Net Supply and/or Demand,Federal Reserve Actions,Real and Nominal Rates of Interest,Nominal,interest rate: Growth rate of your money,Real,interest rate: Growth rate of your purchasing power,Let,R,= nominal rate,r,= real rate and,I,= inflation rate. Then:,Equilibrium Real Rate of Interest,Determined by:,Supply,Demand,Government actions,Expected rate of inflation,Figure 5.1 Determination of the Equilibrium Real Rate of Interest,Equilibrium Nominal Rate of Interest,As the inflation rate increases, investors will demand higher nominal rates of return,If,E,(,i,) denotes current expectations of inflation, then we get the Fisher Equation:,Nominal rate = real rate + inflation forecast,Taxes and the Real Rate of Interest,Tax liabilities are based on nominal income,Given a tax rate (,t,) and nominal interest rate (,R,), the Real after-tax rate is:,The after-tax real rate of return falls as the inflation rate rises.,Rates of Return for Different Holding Periods,Zero Coupon Bond, Par = $100, T=maturity, P=price,r,f,(T)=total risk free return,Example 5.2 Annualized Rates of Return,Equation 5.7 EAR,EAR definition: percentage increase in funds invested over a 1-year horizon,Equation 5.8 APR,APR: annualizing using simple interest,Table 5.1 APR vs. EAR,Table 5.2 Statistics for T-Bill Rates, Inflation Rates and Real Rates, 1926-2009,Bills and Inflation, 1926-2009,Moderate inflation can offset most of the nominal gains on low-risk investments.,A dollar invested in T-bills from19262009 grew to $20.52, but with a real value of only $1.69.,Negative correlation between real rate and inflation rate means the nominal rate responds less than 1:1 to changes in expected inflation.,Figure 5.3 Interest Rates and Inflation, 1926-2009,Risk and Risk Premiums,HPR,= Holding Period Return,P,0,= Beginning price,P,1,= Ending price,D,1,= Dividend during period one,Rates of Return: Single Period,Ending Price =110,Beginning Price = 100,Dividend = 4,HPR,= (110 - 100 + 4 )/ (100) = 14%,Rates of Return: Single Period Example,Expected returns,p,(,s,) = probability of a state,r,(,s,) = return if a state occurs,s,= state,Expected Return and Standard Deviation,State,Prob. of State,r,in State,Excellent.250.3100,E,(,r,) = (.25)(.31) + (.45)(.14) + (.25)(-.0675),+ (0.05)(-0.52),E,(,r,) = .0976 or 9.76%,Scenario Returns: Example,Variance (VAR):,Variance and Standard Deviation,Standard Deviation (STD):,Scenario VAR and STD,Example VAR calculation:,2,= .25(.31 - 0.0976),2,+.45(.14 - .0976),2,+ .25(-0.0675 - 0.0976),2,+ .05(-.52 - .0976),2,= .038,Example STD calculation:,Time Series Analysis of Past Rates of Return,The Arithmetic Average of rate of return:,Geometric Average Return,TV = Terminal Value of the Investment,g= geometric average rate of return,Geometric Variance and Standard Deviation Formulas,Estimated Variance = expected value of squared deviations,Geometric Variance and Standard Deviation Formulas,When eliminating the bias, Variance and Standard Deviation become:,The Reward-to-Volatility (Sharpe) Ratio,Sharpe Ratio for Portfolios:,The Normal Distribution,Investment management is easier when returns are normal.,Standard deviation is a good measure of risk when returns are symmetric.,If security returns are symmetric, portfolio returns will be, too.,Future scenarios can be estimated using only the mean and the standard deviation.,Figure 5.4 The Normal Distribution,Normality and Risk Measures,What if excess returns are not normally distributed?,Standard deviation is no longer a complete measure of risk,Sharpe ratio is not a complete measure of portfolio performance,Need to consider skew and kurtosis,Skew and Kurtosis,Skew,Kurtosis,Figure 5.5A Normal and Skewed Distributions,Figure 5.5B Normal and Fat-Tailed Distributions (mean = .1, SD =.2),Value at Risk (VaR),A measure of loss most frequently associated with extreme negative returns,VaR is the quantile of a distribution below which lies q % of the possible values of that distribution,The 5% VaR , commonly estimated in practice, is the return at the 5,th,percentile when returns are sorted from high to low,.,Expected Shortfall (ES),Also called conditional tail expectation (CTE),More conservative measure of downside risk than VaR,VaR takes the highest return from the worst cases,ES takes an average return of the worst cases,Lower Partial Standard Deviation (LPSD)and the Sortino Ratio,Issues:,Need to consider negative deviations separately,Need to consider deviations of returns from the risk-free rate.,LPSD: similar to usual standard deviation, but uses only negative deviations from r,f,Sortino Ratio replaces Sharpe Ratio,Historic Returns on Risky Portfolios,Returns appear normally distributed,Returns are lower over the most recent half of the period (1986-2009),SD for small stocks became smaller; SD for long-term bonds got bigger,Historic Returns on Risky Portfolios,Better diversified portfolios have higher Sharpe Ratios,Negative skew,Figure 5.7 Nominal and Real Equity Returns Around the World, 1900-2000,Figure 5.8 Standard Deviations of Real Equity and Bond Returns Around the World, 1900-2000,Figure 5.9 Probability of Investment Outcomes After 25 Years with a Lognormal Distribution,Terminal Value with Continuous Compounding,When the continuously compounded rate of return on an asset is normally distributed, the effective rate of return will be,lognormally,distributed.,The Terminal Value will then be:,Figure 5.10 Annually Compounded, 25-Year HPRs,Figure 5.11 Annually Compounded, 25-Year HPRs,Figure 5.12 Wealth Indexes of Selected Outcomes of Large Stock Portfolios and the Average T-bill Portfolio,
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