Question B.1 (Word Limit: 500 words) For this exercise t=1+the fourth digit of your student number. Consider a good consumed in two possible states of nature S = {a,b}. There are two types of contracts, each delivering one unit of the commodity in one state a or b, which can be traded in corresponding markets at prices p(a) and p(b). (i) Consider a consumer h with preferences and endowment • Un (xh(a), xh (b)) = 2log ₂ (a) + 3 log xn (b), (en(a), en (b)) = (3, 4 × t) who wishes to trade in contingent markets. Setup the optimization problem of this consumer and compute the optimal consumption plan as a function of the prices of the contingent contracts. (ii) Consider another consumer k with preferences and endowment • Uk (xk(a), xk (b)) = 3 log x₁(a) + 2log x₁(b), (ek(a), ek(b)) = (2, 4 × t) who also wishes to trade in contingent markets. Setup the optimization problem of this consumer and compute the optimal consumption plan as a function of the prices of contingent contracts. (iii) Consider another consumer m with preferences and endowment • Um (xm(a), xm(b)) = xm(a) + log xm(b), (em(a), em(b)) = (0, 2 × t) who also wishes to trade in contingent markets. Setup the optimization problem of this consumer and compute the optimal consumption plan as a function of the prices of the contingent contracts.
Question B.1 (Word Limit: 500 words) For this exercise t=1+the fourth digit of your student number. Consider a good consumed in two possible states of nature S = {a,b}. There are two types of contracts, each delivering one unit of the commodity in one state a or b, which can be traded in corresponding markets at prices p(a) and p(b). (i) Consider a consumer h with preferences and endowment • Un (xh(a), xh (b)) = 2log ₂ (a) + 3 log xn (b), (en(a), en (b)) = (3, 4 × t) who wishes to trade in contingent markets. Setup the optimization problem of this consumer and compute the optimal consumption plan as a function of the prices of the contingent contracts. (ii) Consider another consumer k with preferences and endowment • Uk (xk(a), xk (b)) = 3 log x₁(a) + 2log x₁(b), (ek(a), ek(b)) = (2, 4 × t) who also wishes to trade in contingent markets. Setup the optimization problem of this consumer and compute the optimal consumption plan as a function of the prices of contingent contracts. (iii) Consider another consumer m with preferences and endowment • Um (xm(a), xm(b)) = xm(a) + log xm(b), (em(a), em(b)) = (0, 2 × t) who also wishes to trade in contingent markets. Setup the optimization problem of this consumer and compute the optimal consumption plan as a function of the prices of the contingent contracts.
Principles of Microeconomics
7th Edition
ISBN:9781305156050
Author:N. Gregory Mankiw
Publisher:N. Gregory Mankiw
Chapter22: Frontiers Of Microeconomics
Section: Chapter Questions
Problem 8PA
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