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The Pricing of Risky Financial
Assets
Risk and Return
Introduction




Risk is a double-edged sword—It complicates
decision making but makes things interesting
Understand how investors are compensated for
holding risky securities and how portfolio
decisions impact the outcome
A financial asset is a contractual agreement that
entitles the investor to a series of future cash
payments from the issuer
Value of a security is dependent on nature of the
future cash payments and credibility of the
issuer in making those payments
2
A World of Certainty
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Individuals are predictable and live up to
contractual agreements on financial securities
In this case, the same interest rate is applicable
to each and every loan

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Charge more—people would not borrow
Charge less—lenders would be deluged with requests
for funds
All securities are prefect substitutes for each
other—sell at the same price and yield the same
return
3
A World of Certainty

Consumption versus saving

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The individual investor would forgo
consumption for a minimum riskless rate of
return
Depends on the individual’s preference
between current and future consumption
Is the rate high enough to persuade individual
to forgo consumption in favor of saving
The higher the rate, the more people will elect
to save for future consumption
4
Consequences of Uncertainty
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In contrast to a “perfect world,” investors
face uncertainty
Outcome may be better or worse than
expected
5
Risk Aversion
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Investors must be compensated for risk
Will hold risky securities if higher expected
returns will offset the undesirable
uncertainty
Trade-off of higher return versus risk is
subjective and different for every
individual
6
Portfolio Diversification


A strategy employed by investors to
reduce risk
Holding many different securities rather
than just one
7
Risk and Return

Probability Distribution
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A listing of the various outcomes and the
probability of each outcome occurring
Expected return

A weighted average of the different outcomes
multiplied by their respective probability
n
E ( R)   pi Ri
i 1
8
Example: Expected Returns
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Suppose you have predicted the following returns for
stocks C and T in three possible states of nature. What
are the expected returns?
 State
Probability
C
T
 Boom
0.3
0.15
0.25
 Normal
0.5
0.10
0.20
 Recession
0.2
0.02
0.01
RC = .3(.15) + .5(.10) + .2(.02) = .099 = 9.99%
RT = .3(.25) + .5(.20) + .2(.01) = .177 = 17.7%
9
Variance and Standard Deviation


Variance and standard deviation measure
the volatility of returns
Weighted average of squared deviations
n
σ   pi ( Ri  E ( R))
2
2
i 1
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Example: Variance and Standard
Deviation

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Consider the previous example. What are the
variance and standard deviation for each stock?
Stock C
 2 = .3(.15-.099)2 + .5(.1-.099)2 + .2(.02.099)2 = .002029
  = .045
Stock T
 2 = .3(.25-.177)2 + .5(.2-.177)2 + .2(.01.177)2 = .007441
  = .0863
11
Standard Deviation

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When comparing securities, the one with
the largest standard deviation is the riskier
If returns and standard deviations
between two securities are different, the
investor must make a decision between
the tradeoff of the expected return and
the standard deviation of each
12
Modern Portfolio Theory
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Asset may seem very risky in isolation, but when
combined with other assets, risk of portfolio may be
substantially less—even zero
When combining different securities, it is important
to understand how outcomes are related to each
other
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Procyclical—Returns of two or more securities are
positively correlated indicating they move in same
direction
Countercyclical—Returns of two or more securities are
negatively correlated-move in opposite directions
Combining a procyclical and countercyclical securities would
greatly reduce the risk of the portfolio
13
Principles of Diversification
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As long as assets do not have precisely
the same pattern of returns, then holding
a group of assets can reduce risk
If the returns of each security are totally
independent of each other, combining a
large number of securities tends to
produce the average return of the
portfolio
14
The Risk Premium on Risky
Securities
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The standard deviation of returns is a good
measure of risk for analyzing a security
However, it is a relatively poor measure of the
risk contribution of a single security to an entire
portfolio
This depends on the covariance of returns with
other securities
Nonsystematic Risk of a portfolio is diversified
away as the number of securities held increases
15
Market Portfolio

A widely diversified portfolio that contains
virtually every security in the marketplace

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Investor earns a return above the risk-free rate that
compensates for the co-movement of returns among
all securities, rather than the risks inherent in every
security
The risk of the market portfolio is less than the sum
of each security’s risk because some of the individual
variability tends to cancel out
16
Systematic Risk

Relates to the risk of an individual security in
relation to the movement of the entire portfolio
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The risk premium that investors demand will be in
proportion to the systematic risk of the security
Riskier securities must offer investors higher expected
returns
Extra expected return on a risky security above the
risk-free rate will be proportional to the risk
contribution of a security to a well-diversified portfolio
17
Portfolios
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A portfolio is a collection of assets
An asset’s risk and return is important in
how it affects the risk and return of the
portfolio
The risk-return trade-off for a portfolio is
measured by the portfolio expected return
and standard deviation, just as with
individual assets
18
Portfolio Expected Returns

The expected return of a portfolio is the
weighted average of the expected returns for
each asset in the portfolio
m
E ( RP )   w j E ( R j )
j 1

You can also find the expected return by finding
the portfolio return in each possible state and
computing the expected value as we did with
individual securities
19
Portfolio Variance
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Compute the portfolio return for each
state:
RP = w1R1 + w2R2 + … + wmRm
Compute the expected portfolio return
using the same formula as for an
individual asset
Compute the portfolio variance and
standard deviation using the same
formulas as for an individual asset
20
Example

Consider the following information
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State
Boom
Normal
Recession
Probability
.25
.60
.15
X
15%
10%
5%
Z
10%
9%
10%
What is the expected return and standard
deviation for a portfolio with an
investment of $6000 in asset X and $4000
in asset Y?
21
Expected versus Unexpected
Returns
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Realized returns are generally not equal to
expected returns
There is the expected component and the
unexpected component

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At any point in time, the unexpected return
can be either positive or negative
Over time, the average of the unexpected
component is zero
22
Announcements and News
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Announcements and news contain both an
expected component and a surprise
component
It is the surprise component that affects a
stock’s price and therefore its return
This is very obvious when we watch how
stock prices move when an unexpected
announcement is made or earnings are
different than anticipated
23
Efficient Markets
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Efficient markets are a result of investors
trading on the unexpected portion of
announcements
The easier it is to trade on surprises, the
more efficient markets should be
Efficient markets involve random price
changes because we cannot predict
surprises
24
Systematic Risk
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Risk factors that affect a large number of
assets
Also known as non-diversifiable risk or
market risk
Includes such things as changes in GDP,
inflation, interest rates, etc.
25
Unsystematic Risk
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Risk factors that affect a limited number of
assets
Also known as unique risk and assetspecific risk
Includes such things as labor strikes, part
shortages, etc.
26
Returns
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Total Return = expected return +
unexpected return
Unexpected return = systematic portion +
unsystematic portion
Therefore, total return can be expressed
as follows:
Total Return = expected return +
systematic portion + unsystematic portion
27
Diversification
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Portfolio diversification is the investment
in several different asset classes or sectors
Diversification is not just holding a lot of
assets
For example, if you own 50 internet
stocks, you are not diversified
However, if you own 50 stocks that span
20 different industries, then you are
diversified
28
The Principle of Diversification
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Diversification can substantially reduce the
variability of returns without an equivalent
reduction in expected returns
This reduction in risk arises because worse
than expected returns from one asset are
offset by better than expected returns
from another
However, there is a minimum level of risk
that cannot be diversified away and that is
the systematic portion
29
Diversifiable Risk
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The risk that can be eliminated by
combining assets into a portfolio
Often considered the same as
unsystematic, unique or asset-specific risk
If we hold only one asset, or assets in the
same industry, then we are exposing
ourselves to risk that we could diversify
away
30
Total Risk
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Total risk = systematic risk + unsystematic
risk
The standard deviation of returns is a
measure of total risk
For well diversified portfolios,
unsystematic risk is very small
Consequently, the total risk for a
diversified portfolio is essentially
equivalent to the systematic risk
31
Systematic Risk Principle
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There is a reward for bearing risk
There is not a reward for bearing risk
unnecessarily
The expected return on a risky asset
depends only on that asset’s systematic
risk since unsystematic risk can be
diversified away
32