Bodie_Essentials_2024_Release_Chapter_05_PPT.pdf

Transcript

Chapter
Risk, Return and the
5 Historical Record

Bodie, Kane, and Marcus
Essentials of Investments
2024 Release

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 5.1 Rates of Return

Holding-Period Return (HPR)
Discrete rate of return over given investment
period:

PEnding − PBeginning + DivCash
HPR =
PBeginning

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 5.1 Rates of Return: Example
What is the HPR for a share of stock that was
purchase for $25, sold for $27 and distributed
$1.25 in dividends?

$27.00 – $25.00 + $1.25
HPR = = 0.13 = 13.00%
$25.00

The HPR is the sum of the dividend yield plus the
capital gains yield

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 5.1 Rates of Return: Measuring over Multiple Periods
Arithmetic average
Sum of returns in each period divided by
number of periods
Geometric average
Single per-period return
Gives same cumulative performance as
sequence of actual returns
Dollar/SAR-weighted average return
Internal rate of return on investment

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 Table 5.1 Annual Cash Flows & Rates of Return of a
Mutual Fund

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 5.1 Rates of Return: Measuring over Multiple Periods

Arithmetic average: The sum of the returns
divided by the number of years.
r1 + r2 +... + rn
rArithmetic =
n
10 + 25 − 20 + 20
= =.0875 = 8.75%
4

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 5.1 Rates of Return: Measuring over Multiple Periods
Geometric average: Single period return that gives
the same cumulative performance as the sequence
of actual returns

rGeometric = [(1 + r1 )  (1 + r2 ) ...  (1 + rn )]1/ n − 1
= 1.10  1.25 .80  1.20 
1/ 4
− 1 = 0.0719 = 7.19%

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 5.1 Rates of Return
Dollar-weighted average return
The internal rate of return on an investment

Annualizing Rates of Return
APR = Annual Percentage Rate
Per-period rate × Periods per year
Ignores Compounding

EAR = Effective Annual Rate
Actual rate an investment grows
Does not ignore compounding

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 5.1 Rates of Return: EAR vs. APR

n-Periods of Compounding: Continuous Compounding:
 APR 
n
EAR = e APR − 1
EAR =  1 +  −1
 n 

APR = [( EAR + 1)1/ n − 1]  n APR = ln( EAR + 1)
where
n = compounding per period

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5.2 Inflation and The Real Rates of Interest
Nominal Interest and Real Interest
1 + rNom
1 + rReal =
1+ i
where
rReal = Real Interest Rate
rNom = Nominal Interest Rate
i = Inflation Rate

Example: What is the real return on an investment that
earns a nominal 10% return during a period of 5% inflation?
1 +.10
1 + rReal = = 1.048
1 +.05
r =.048 or 4.8%

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 5.2 Inflation and The Real Rate of Interest

U.S. History of Interest Rates, Inflation, and
Real Interest Rates
Since the 1950s, nominal rates have increased
roughly in tandem with inflation
1930s/1940s: Volatile inflation affects real rates
of return
Figure 5.1

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Figure 5.1 Inflation and Interest rates (1927-2022)

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 5.3 Risk and Risk Premiums
Scenario Analysis and Probability Distributions
Scenario analysis: Possible economic scenarios
Probability distribution: Possible outcomes with
probabilities
Expected return: Mean value
Variance: Expected value of squared deviation from
mean
Standard deviation: Square root of variance

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 Spreadsheet 5.1 Scenario Analysis for a Stock Index Fund

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 Figure 5.3 Normal Distribution r = 10% and σ = 20%

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 5.3 Risk and Risk Premiums 2

The Normal Distribution:
Transform normally distributed return into
standard deviation score (normally distributed
with mean = 0 and SD=1):
ri − E ( ri )
sri =
i
Original return, given standard normal return:

ri = E ( ri ) + sri   i

16
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 5.3 Risk and Risk Premiums

Normality over Time
When returns over very short time periods are
normally distributed, HPRs up to 1 month can be
treated as normal

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 5.3 Risk and Risk Premiums: Value at Risk

Value at risk (VaR):
Measure of downside risk
Worst loss with given probability, usually 1%
or 5%

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 5.3 Risk and Risk Premiums
Risk Premiums and Risk Aversion
Risk-free rate: Rate of return that can be earned
with certainty
Risk premium: Expected return in excess of that
on risk-free securities
Excess return: Rate of return in excess of risk-
free rate
Risk aversion: Reluctance to accept risk
Price of risk: Ratio of risk premium to variance

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 5.3 Risk and Risk Premiums
Mean-Variance Analysis
Ranking portfolios by Sharpe ratios (reward to
volatility)
A higher Sharpe ratio is better when comparing
different portfolios
Portfolio Risk Premium E ( rp ) − rf
SP =
Standard Deviation of Excess Returns P
where
E ( rp ) = Expected Return of the portfolio
rf = Risk Free rate of return
 P = Standard Deviation of portfolio excess return

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 5.4 The Historical Record
Using Time Series of Return
Scenario analysis derived from sample history of returns
Variance and standard deviation estimates from time
series of returns:
1
  ( rt − rt )
2
Var ( rt ) =
n −1

SD ( rt ) = Var ( rt )

1
rt =  rt
n
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 5.4 The Historical Record: World Portfolios
World Large stocks: 24 developed countries,
~6000 stocks
U.S. large stocks: Standard & Poor's 500 largest
cap
U.S. small stocks: Smallest 20% on NYSE,
Nasdaq, and Amex
World bonds: Same countries as World Large
stocks
U.S. Treasury bonds: Barclay's Long-Term
Treasury Bond Index

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 Table 5.3: Historical Return and Risk

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 Figure 5.4: Frequency Distribution of Annual Returns on
United States Treasury Bills , 1927-2022

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 Figure 5.4: Frequency Distribution of Annual Returns on 30-
Year Treasury Bonds , 1927-2022

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 Figure 5.4: Frequency Distribution Of Annual
Returns on Common Stocks, 1927-2022

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 5.5 Asset Allocation across Portfolios

Asset Allocation
Portfolio choice among broad investment
classes (stocks, bonds, Treasury bills, etc.)
Complete Portfolio
Entire portfolio, including risky and risk-free
assets
Capital Allocation
Choice between risky and risk-free assets

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 5.5 Asset Allocation across Portfolios

The Risk-Free Asset
Treasury bonds (still affected by inflation)
Price-indexed government bonds
Money market instruments effectively risk-free
Risk of CDs and commercial paper is miniscule
compared to most assets

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 5.5 Portfolio Asset Allocation: Expected Return and Risk

Expected Return of the Complete Portfolio
E (rC ) = y  E (rp ) + (1 − y )  r f
where E ( rC ) = Expected Return of the complete portfolio
E ( rp ) = Expected Return of the risky portfolio
rf = Return of the risk free asset
y = Percentage assets in the risky portfolio

Standard Deviation of the Complete Portfolio
 C = y  p
where  C = Standard deviation of the complete portfolio
 P = Standard deviation of the risky portfolio

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Figure 5.7 Investment Opportunity Set

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 5.5 Asset Allocation across Portfolios
Capital Allocation Line (CAL)
Plot of risk-return combinations available by
varying allocation between risky and risk-free

Risk Aversion and Capital Allocation
y: Preferred capital allocation
Available risk premium to variance ratio
y=
Required risk premium to variance ratio
[ E ( rP ) − rf ] /  P2 [ E ( rP ) − rf ]
= =
A A P2
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 5.6 Passive Strategies and the Capital Market Line

Passive Strategy
Investment policy that avoids security analysis

Capital Market Line (CML)
Capital allocation line using market-index
portfolio as risky asset

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Table 5.5: Excess Returns Statistics for the Market Index

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5.6 Passive Strategies and the Capital Market Line

Cost and Benefits of Passive Investing
Passive investing is inexpensive and simple
Expense ratio of active mutual fund averages 1%
Expense ratio of hedge fund averages 1%-2%,
plus 10% of returns above risk-free rate
Active management offers potential for higher
returns

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