chapter four consumer choice. © 2007 pearson addison-wesley. all rights reserved.4–2 consumer...
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Chapter Four
ConsumerChoice
© 2007 Pearson Addison-Wesley. All rights reserved. 4–2
Consumer Choice
• In this chapter, we examine four main topics.– Preferences– Utility– Budget constraint– Constrained consumer choice
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Preferences
• To explain consumer behavior, economists assume that consumers have a set of tastes or preferences that they use to guide them in choosing between goods. These tastes differ substantially among individuals.
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Properties of Consumer Preferences
• Economists make three critical assumptions about the properties of consumers’ preferences. For brevity, these properties are referred to as completeness, transitivity, and more is better.
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Completeness
• The completeness property holds that, when facing a choice between any two bundles of goods, a consumer can rank them so that one and only one of the following relationships is true: The consumer prefers the first bundle to the second, prefers the second to the first, or is indifferent between them.
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Transitivity
• The transitivity (or what some people refer to as rationality) property is that a consumer’s preferences over bundles is consistent in the sense that, if the consumer weakly prefers Bundle to Bundle (like at least as much as ) and weakly prefers Bundle to Bundle , the consumer also weakly prefers Bundle to Bundle .
y
zx
zzy
x
y
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More is Better
• The more-is-better property holds that, all else the same, more of a commodity is better than less of it (always wanting more is known as nonsatiation).
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• good– a commodity for which more is preferred to
less, at least at some levels of consumption
• bad– something for which less is preferred to
more, such as pollution
Properties of Consumer Preferences
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Preference Maps
• One of the simplest ways to summarize information about a consumer’s preferences is to create a graphical interpretation—a map—of them.
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• indifference curve– the set of all bundles of goods that a
consumer views as being equally desirable
• indifference map (or preference map)– a complete set of indifference curves that
summarize a consumer’s tastes or preferences
Preference Maps
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Indifference Curves
• All indifference curve maps must have four important properties:– Bundles on indifference curves farther from
the origin are preferred to those on indifference curves closer to the origin.
– There is an indifference curve through every possible bundle.
– Indifference curve cannot cross.– Indifference curves slope downward.
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Figure 4.1 Bundles of Pizzas and Burritos Lisa Might Consume
(a)
302515
Z, Pizzas per semester
25
20
15
10
5
da
b
e
c
f
A
B
(b)
302515
Z, Pizzas per semester
25
20
15
10 da
b I1
e
c
f
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Figure 4.1 Bundles of Pizzas and Burritos Lisa Might Consume (cont’d)
(c)
302515
Z, Pizzas per semester
25
20
15
10d
I0
I1
I2e
c
f
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Figure 4.2 Impossible Indifference Curves
(a) Crossing
Z, Pizzas per semester
I 1
I 0
a
be
(b) Upward Sloping
Z, Pizzas per semester
I
a
b
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Figure 4.2 Impossible Indifference Curves (cont’d)
a
b
(c) Thick
Z, Pizzas per semester
I
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Willingness to Substitute Between Goods
• Marginal Rate of Substitution (MRS)– the maximum amount of one good a
consumer will sacrifice to obtain one more unit of another good
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Willingness to Substitute Between Goods• The marginal rate of substitution of burritos
for pizza is
where is the number of pizzas Lisa will give up to get more burritos or vice versa and pizza (Z) is on the horizontal axis. The marginal rate of substitution is the slope of the indifference curve.
BMRS
Z
BZ
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Curvature of Indifference Curves
• An indifference curve doesn’t have to be convex, but casual observation suggests that most people’s indifference curves are convex. When people have a lot of one good, they are willing to give up a relatively large amount of it to get a good of which they have relatively little. However, after that first trade, they are willing to give up less of the first good to get the same amount more of the second good.
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• This willingness to trade fewer burritos for one more pizza as we move down and to the right along the indifference curve reflects a diminishing marginal rate of substitution: The marginal rate of substitution approaches zero as we move down and to the right along an indifference curve.
Curvature of Indifference Curves
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Figure 4.3 Marginal Rate of Substitution
(a) Indifference Curve Convex to the Origin
5
3
8
1–1
1
12
0
–2
–3
3 4 5 6Z, Pizzas per semester
a
b
c
d
I
(b) Indifference Curve Concave to the Origin
5
7
1
1
2
0
–2
–3
3 4 5 6Z, Pizzas per semester
a
b
c
I
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Curvature of Indifference Curves
• Perfect Substitutes– goods that a consumer is completely
indifferent as to which to consume
• Perfect Complements– goods that a consumer is interested in
consuming only in fixed proportions
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Figure 4.4 Perfect Substitutes, Perfect Complements, Imperfect Substitutes
(a) Perfect Substitutes
1 2 3 4
Pepsi, Cans per week
1
0
2
3
4
I1 I 2 I 3 I 4
(b) Perfect Complements
1 2 3
Pie, Slices per week
1
2
3
0
I 1
I 2
I 3
a
d
e c
b
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Figure 4.4 Perfect Substitutes, Perfect Complements, Imperfect Substitutes (cont’d)
(c) Imperfect Substitutes
Z, Pizzas per semester
I
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Application (Page 83) Indifference Curves Between Food and Clothing
Clothing per year
I 4
I 3
I 2
I1
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Utility
• Utility– a set of numerical values that reflect the
relative rankings of various bundles of goods
• Utility Function– the relationship between utility values and
every possible bundle of goods
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Ordinal Preferences
• If we know only consumers’ relative rankings of bundles, our measure of pleasure is ordinal rather than cardinal. An ordinal measure is one that tells us the relative ranking of two things but not how much more one rank is than another.
• Because utility is an ordinal measure, we should not put any weight on the absolute differences between the utility associated with one bundle and another. We care only about the relative utility or ranking of the two bundles.
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Utility and Marginal Utility
• Marginal Utility– the extra utility that a consumer gets from
consuming the last unit of a good
• Thus marginal utility is the slope of the utility function
Z
UMU
Z
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Figure 4.5 Utility and Marginal Utility
MUZ
10987654321Z, Pizzas per semester
0
130
(b) Marginal Utility
20
U = 20
Utility function, U (10, Z )
Z = 1
10987654321Z, Pizzas per semester
0
350
250
(a) Utility
230
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Utility and Marginal Rates of Substitution
• The marginal rate of substitution (MRS) is the slope of the indifference curve. The marginal rate of substitution can also be expressed in terms of marginal utilities.
• The marginal rate of substitution can be written as
(4.1)Z
B
MUBMRS
Z MU
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Budget Constraint
• Consumers maximize their well-being subject to constraints. The most important constraint most of us face in deciding what to consume is our personal budget constraint.
• For simplicity, we assume that each consumer has a fixed amount of money to spend now, so we can use the terms budget and income interchangeably.
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Budget Constraint
• If Lisa spends all her budget, Y, on pizza and burritos, then
(4.2)
where is the amount she spends on burritos and is the amount she spends on pizzas.
B Zp B p Z Y
Bp B
Zp Z
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Budget Constraint
• Budget Line (or Budget Constraint)– the bundles of goods that can be bought if
the entire budget is spent on those goods at given prices
• Opportunity Set– all the bundles a consumer can buy,
including all the bundles inside the budget constraint and on the budget constraint
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Slope of the Budget Constraint
• Marginal Rate of Transformation (MRT)– the trade-off the market imposes on the
consumer in terms of the amount of one good the consumer must give up to obtain more of the other good
• The marginal rate of transformation is the rate at which Lisa can trade burritos for pizza in the marketplace:
(4.5)
Z
B
pBMRT
Z p
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Table 4.1 Allocations of a $50 Budget Between Burritos and Pizza
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Figure 4.6 Budget Constraint
Opportunity set
50 = Y/pZ
L1 (pZ = $1, Y = $50)
25 = Y/pB
20
10
100 30Z, Pizzas per semester
a
b
c
d
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Effect of A Change in Price on Consumption
• If the price of pizza doubles but the price of burritos is unchanged, the budget constraint swings in toward the origin in panel a of Figure 4.7.
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Figure 4.7 Changes in the Budget Constraint
(a) Price of Pizza Doubles
Loss
50
L1 (pZ = $1)
L2 (pZ = $2)
25
250Z, Pizzas per semester
(b) Income Doubles
Gain
100
L3 (Y = $100)
L1 (Y = $50)
50
25
500Z, Pizzas per semester
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Effect of a Change in Income on Consumption
• If the consumer’s income increases, the consumer can buy more of all goods. The budget constraint shifts outward—away from the origin—and is parallel to the origin constraint in panel b of Figure 4.7.
• A change in income affects only the position and not the slope of the budget line. The slope is determined solely by the relative prices of pizza and burritos.
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Page 91 Solved Problem 4.2
100 12
Water, Thousand gallons per month
Budget line
Quota
A B
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The Consumer’s Optimal Bundle
• The optimal bundle must be on the budget constraint. Bundles that lie on indifference curves above the constraint, such as those on I3, are not in the opportunity set.
• For any bundle inside the constraint (such as d on I1), there is another bundle on the constraint with more of at least one of the two goods, and hence she prefers that bundle. Therefore, the optimal bundle must lie on the budget constraint.
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The Consumer’s Optimal Bundle• Bundles that lie on indifference curves that
cross the budget constraint (such as I1, which crosses the constraint at and ) are less desirable than certain other bundles on the constraint.
• Thus the optimal bundle must lie on the budget constraint and be on an indifference curve that does not cross it. Such a bundle is the consumer’s optimum.
• The optimal bundle must lie on an indifference curve that touches the budget constraint but does not cross it.
a c
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Figure 4.8 Consumer Maximization
(a) Interior Solution
Budget line
10
20
25
5030100Z, Pizzas per semester
I 1I 2
I 3
d
fc
e
a
g
A
B
(b) Corner Solution
Budget line
25
50Z, Pizzas per semester
I 1
I 2
I 3
e
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Interior Solution
• For the indifference curve I2 to touch the budget constraint but not cross it, it must be tangent to the budget constraint: The budget constraint and the indifference curve have the same slope at the point where they touch.
Rearranging terms, this condition is equivalent to
(4.6)
eZ
B
MU
MU Z
B
pMRS MRT
p
Z B
Z B
MU MU
p p
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Page 95 Solved Problem 4.3Corner Solution
SUVs per decade
1
LB
l
LN
eN
eB
1
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Figure 4.9 Optimal Bundles on Convex Sections of Indifference Curves
(a) Strictly Concave Indifference Curves
Z, Pizzas per semester
e
d
I 2I1 I3
e
d
I2I 1
(b) Concave and Convex Indifference Curves
Z, Pizzas per semester
Budget line
Budget line
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Buying Where More is Better• If both goods are consumed in positive
quantities and their prices are positive, more of either good must be preferred to less.
• In summary, we do not observe consumer optima at bundles where indifference curves are concave or consumers are satiated. Thus we can safely assume that indifference curves are convex and that consumers prefer more to less in the ranges of goods that we actually observe.
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Page 98 Solved Problem 4.4
American meals per year
a
fLA
LF
I 1I 2
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Food Stamps
• Cash preferred to food stamps– Poor people who receive cash have more
choices than those who receive a comparable amount of food stamps.
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Figure 4.10 Food Stamps Versus Cash
Y Y + 100
Y + 100
0 100
Food per month
Budget line withfood stamps
Budget line with cash
Originalbudget line
A
B
f
deY
C
I 1
I 2
I 3