II: Micro Fall 2009 Exercise session 2 VŠE

1 Deriving function

Assume that consumer’sutility function is of Cobb-Douglass form: U (x; y) = x y (1) To solve the consumer’s optimisation problem it is necessary to maximise (1) subject to her budget constraint:

px x + py y m (2)    To solve the problem Lagrange Theorem will be used to rewrite the constrained optimisation problem into a non-constrained form:

max (x; y; ) = x y +  (m pxx pyy) (3) L The …rst order (necessary) conditions will result in: 1 x y = px (4) 1 x y = py (5)

m = px x + py y (6)   Combining (4) and (5) will result in:

pyy = pxx (7) which, combined with (6) will give:

(m pxx) = pxx (8) and …nally, after some rearrangements becomes: m x = (9) + px

This is the demand function for the good x. When the of the good x; px, is …xed then (9) is the Engel curve for the good x: It is easy to see that this was an example of homothetic preferences: It is enough to check the income to be equal to unity:

x m @x m/ @ m ( + )p "m = = = = 1

x @m m/ @m ( + ) p ( + )p ( + )p  

1 Re-writing (9) as: m p = (10) x x + gives the Inverse Demand function!

1.1 Quasi-linear preferences

Remark 1 Quasi-linear have the form u (x1; x2) = x1 + v (x2)!

Suppose the agent is maximising the following function:

U (x; y) = x + py (11) subject to standard budget constraint (2). Assuming that a rational agent will spend all her money on purchasing the (more rigorous alternative is to set up Lagrangian function), the optimisation problem will beocome:

m py max y + py (12) y p p  x x  The …rst order (necessary) condition after rearranagements reads:

p 2 y = x (13) 2p  y  This is the demand function for the good y. It is independent on the income level, i.e. the agent is going to consume exactly the same amount of the good y as long as the remain constant. On the other hand the agent is spending all her ‘leftover’money on purchasing good x: From (2) and (13) the demand function is: m p x = x (14) px 4py which is of the usual form: x = x (px; py; m) : Q: Are x and y substitutes or compliments?

2 Exercises

2.1 True/False Claim 1 If the Engel curve for a good is upward sloping, the demand curve for that good must be downward sloping.

2 TRUE: Upward sloping Engel curve (negative income e¤ect Slutsky ) downward sloping demand curve

3m Claim 2 If the demand function is q = p (m is the income, p is the price), then the absolute value of the price elasticity of demand decreases as price increases.

p @q p 3m 1 3m q FALSE: The elasticity is: d @p = q p2 = q p = q = 1: Thus has " constant elasticity equal to unity. Note: Any utility function of the form q = Ap has constant elasticity equal to ":

Claim 3 An increase in the price of Gi¤en good makes the consumers better o¤. FALSE: Increase in price of any good makes the consumer poorer and thus worse o¤. (A graphical representation may be helpful!)

Claim 4 The demand function q = 1000 10p. If the price goes from 10 to 20, the absolute value of the elasticity of demand increases. p 10 TRUE: The elasticity of demand is: " = 10 q :"p=10 = 10 1000 100 = 1 20 1 1 1 9 ; "p=20 = 10 1000 200 = 4 : 4 > 9

Claim 5 In case of perfect complements, decrease in price will result in negative total e¤ect equal to the substitution e¤ect. FALSE: In case of perfect compliments there is no substitution e¤ect, and the total e¤ect is equal to the income e¤ect.

Claim 6 When all other determinants are held …xed, the demand for a Gi¤en good always falls when income is increased. TRUE: To prove the claim we need to show that Gi¤en good is always an . We are going to use the version of Slutsky equation that we had in class and ilustrated in Figure 3 (Note: the …gure is illustrative and does not explain Gi¤en good). Thus: x = xs + xm Slutsky

x = Xold Xnew total e¤ect s x = Xold Xintm substitution e. m x = Xintm Xnew income e.

3 Figure 3

Xold Xnew

Xintm

BC(po,mo) BC(pn,mi) BC(pn,mn)

Total effect Substitution effect Income effect

As we can see, the …gure illustrates a case when the price of the good went down, viz. p = po pn > 0 and we can rewrite the Slutsky equation as x xs xm = + p p p and check for the signs. We know that substition e¤ect is always negative. We also know that for the Gi¤en good the total e¤ect is positive. Thus the income e¤ect should be positive: xm sgn = 1 (15) p   In order to prove the claim we need to show that xm sgn = 1 (16) m   or (same as) xm < 0 m that is the demand falls when income increases. Thus we need to see that

sgn [m] = 1 sgn [p] 

4 From the budget constraint we know that when the price goes down, the agent ‘gets’richer, i.e. p = po pn > 0 = mn mo > 0 as the shift of the budget ) constraint is paralel to right. Thus we have

m = mo mn < 0 (17) Again from (15) and (17) directly follows (16). Q.E.D.

Claim 7 If the goods are substitutes, then an increase in the price of one of them will reduce the demand for the other. False: According to the de…nition!

2.2 Problems Problem 1 Demand functions for beer is given:

qb = m 30pb + 20pc where m is the income; pb and pc are the prices of beer and cake, respectively; qb is the demanded quantity. 1. is beer a substitute or compliment for cake? (A: @qb = 20 > 0 = substitute) @pc ) 2. assume income is 100, and cake costs 1, what is the demand function? (A: qb = 120 30pb) 1 3. write the inverse demand function. (A: pb = 4 qb) 30 1 4. at what price would 30 beers be bought? (A: pb = 4 30 = 3) 30 5. Draw the inverse demand. (Hint: It’s a linear function)

6. Draw the inverse demand when pc = 2: (Hint: It’s parallel to the above, but higher.) Problem 2 Suppose the demand function is q = (p + a) ; a > 0; < 1: 1. Find the price elasticity of demand.

p @q p 1 p 1 p A : = (p + a) = (p + a) = q @p q (p+a) p+a   2. Find the price level for which the elasticity is equal to -1? A : p = 1 : p = a p+a +1  

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