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L03 Utility.

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Presentation on theme: "L03 Utility."— Presentation transcript:

1 L03 Utility

2 Quiz How much do you like microeconomics
A: I love it (unconditionally) B: I cannot live without it C: I would die for it D: All of the above

3 Big picture Behavioral Postulate: A decisionmaker chooses its most preferred alternative from the set of affordable alternatives. Budget set = affordable alternatives To model choice we must have decisionmaker’s preferences.

4 Preferences: A Reminder
Rational agents rank consumption bundles from the best to the worst We call such ranking preferences Preferences satisfy Axioms: completeness and transitivity Geometric representation: Indifference Curves Analytical Representation: Utility Function ~ f

5 Indifference Curves x2 x1

6 Utility Functions Preferences satisfying Axioms (+) can be represented by a utility function. Utility function: formula that assigns a number (utility) for any bundle. Today: Geometric interpretation Utility function and Preferences Utility and Indifference curves Important examples

7 Utility function: Geometry
x2 z All bundles in I1 are strictly preferred to all in I2. x1

8 Utility function: Geometry
x2 z All bundles in I1 are strictly preferred to all in I2. x1

9 Utility function: Geometry
x2 z All bundles in I1 are strictly preferred to all in I2. x1

10 Utility function: Geometry
5 x2 3 All bundles in I1 are strictly preferred to all in I2. z x1

11 Utility function: Geometry
U(x1,x2) Utility 5 x2 3 All bundles in I1 are strictly preferred to all in I2. z x1

12 Utility Functions and Preferences
A utility function U(x) represents preferences if and only if: x y U(x) ≥ U(y) x y x ~ y ~ f ~ f p

13 Usefulness of Utility Function
Utility function U(x1,x2) = x1x2 What can we say about preferences (2,3), (4,1), (2,2) Quiz 1: A: B: C: D:

14 Utility Functions & Indiff. Curves
An indifference curve contains equally preferred bundles. Indifference = the same utility level. Indifference curve Hikers: Topographic map with contour lines

15 Indifference Curves U(x1,x2) = x1x2 x2 x1

16 Ordinality of a Utility Function
Utilitarians: utility = happiness = Problem! (cardinal utility) Nowadays: utility is ordinal (i.e. ordering) concept Utility function matters up to the preferences (indifference map) it induces Q: Are preferences represented by a unique utility function?

17 Utility Functions p U=6 U=4 U=4 U(x1,x2) = x1x2 (2,3) (4,1) ~ (2,2).
Define V = 5U. V(x1,x2) = 5x1x (2,3) (4,1) ~ (2,2). V preserves the same order as U and so represents the same preferences. p V= V= V=

18 Monotone Transformation
U(x1,x2) = x1x2 V= 5U x2 x1

19 Theorem (Monotonic Transformation)
T: Suppose that U is a utility function that represents some preferences f(U) is a strictly increasing function then V = f(U) represents the same preferences

20 Preference representations
Utility U(x1,x2) = x1x2 Quiz 2: U(x1,x2) = x1 +x2 A: V = ln(x1 +x2)+5 B: V=5x1 +7x2 C: V=-2(x1 +x2) D: All of the above

21 Three Examples Cobb-Douglas preferences (most goods)
Perfect Substitutes (Pepsi and Coke) Perfect Complements (Shoes)

22 Example: Perfect substitutes
Two goods that are substituted at the constant rate Example: Pepsi and Coke (I like soda but I cannot distinguish between the two kinds)

23 Perfect Substitutes (Soda)
Pepsi U(x1,x2) = Coke

24 Perfect Substitutes (Proportions)
x2 (1 can) U(x1,x2) = x1 (6 pack)

25 Perfect complements Two goods always consumed in the same proportion
Example: Right and Left Shoes We like to have more of them but always in pairs

26 Perfect Complements (Shoes)
U(x1,x2) = L

27 Perfect Complements (Proportions)
Coffee 2:1 U(x1,x2) = Sugar


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