Suppose the function u(x) = ln(x) where x is consumption represents your preference over gambles using...

Suppose the function u(x) = ln(x) where x is consumption represents your preference over gambles using...

Suppose the function u(x) = ln(x) where x is consumption represents your preference over gambles using an expected utility function. You have a probability ? of getting consumption xB (bad state) and a probability 1-? of getting xG (good state). (a) Find the certainty equivalent xCE of the gamble. Hint: use the fact that ?ln(x0) + ?ln (x1) = ln(x0?x1?) for any positive numbers x0 and x1. (b) Find the risk premium of the gamble. . [The following info is...

Suppose the function u(x) = ln(x) represents your taste over gambles using an expected utility function....

Suppose the function u(x) = ln(x) represents your taste over gambles using an expected utility function. Consider a gamble that will result in a lifetime consumption of x0 with probability p, and x1 with probability 1 – p, where x1 > x0. (a) Are you risk averse? Explain. (b) Write down the expected utility function. (c) Derive your certainty equivalent of the gamble. Interpret its meaning. Use the fact that αln(x0) + βln (x1) = ln(x0 α x1 β )....

Bob has a utility function over money v(x) = √ x. There are two possible states...

Bob has a utility function over money v(x) = √ x. There are two possible states of the world 1 and 2. State 1 can occur with probability π1 and state 2 can occur with probability π2 where π2 = 1 − π1. Bob’s wealth levels in the states 1 and 2 will be x1 and x2 respectively. Therefore Bob’s expected utility over the state-contingent consumption bundle is, U((x1, x2); (π1, π2)) = π1 √ x1 + π2 √ x2...

Suppose Hannah is strictly risk averse with a utility function u over monetary amounts (y): u(y)=y​^(1/2)...

Suppose Hannah is strictly risk averse with a utility function u over monetary amounts (y): u(y)=y​^(1/2) Hannah is facing a risky situation: Either nothing happens to her wealth of $576 with probability 3/4 or she losses everything (so ends up with $0) with probability 1/4. Question 1 What is the expected payoff that Hannah is facing? Provide the numerical value. Numeric Answer: Question 2 What is Hannah's expected utility in this gamble? Provide the numerical value. Numeric Answer: Question 3...

Consider a consumer who has preferences over consumption (x) and leisure (L) represented by u(L, x)...

Consider a consumer who has preferences over consumption (x) and leisure (L) represented by u(L, x) = 10 ln L + 5 ln x. The consumer has 24 hours in the day (T = 24) to divide between work and leisure. The consumer can choose however many hours they want to work. For each hour of work they are paid a wage given by w = 10. Consumption (x) costs 1 per unit. (a) Initially suppose that the consumer has...

1. Al Einstein has a utility function that we can describe by u(x1, x2) = x21...

1. Al Einstein has a utility function that we can describe by u(x1, x2) = x21 + 2x1x2 + x22 . Al’s wife, El Einstein, has a utility function v(x1, x2) = x2 + x1. (a) Calculate Al’s marginal rate of substitution between x1 and x2. (b) What is El’s marginal rate of substitution between x1 and x2? (c) Do Al’s and El’s utility functions u(x1, x2) and v(x1, x2) represent the same preferences? (d) Is El’s utility function a...