y= u(a+3) - u(a-2) y= u(b+2) - u(b) + 4 u(b) - u(b-2) Define function u....

y= u(a+3) - u(a-2) y= u(b+2) - u(b) + 4 u(b) - u(b-2) Define function with...

y= u(a+3) - u(a-2) y= u(b+2) - u(b) + 4 u(b) - u(b-2) Define function with matlab. plot the two functions in matlab.

a) Define a function to be x^3+3x-4 and define another function to be x^2-5x+10. **Note: Use...

a) Define a function to be x^3+3x-4 and define another function to be x^2-5x+10. **Note: Use different names for each function. b) Plot both functions from part a on the same graph from x=-5 to x=5. Define a range of 0 to 100 with the PlotRange option. Use the PlotLegends option to label the functions with their "Expressions". You may need to refer to the "Lab 3 Functions Continued" instructional notebook or the Documentation Center to see how options are...

a) U = xy b) U = (xy)^1/3 c) U = min(x,y/2) d) U = 2x...

a) U = xy b) U = (xy)^1/3 c) U = min(x,y/2) d) U = 2x + 3y e) U = x^2 y^2 + xy 2. All homogeneous utility functions are homothetic. Are any of the above functions homothetic but not homogeneous? Show your work.

Let X = {1, 2, 3, 4} and Y = {2, 3, 4, 5}. Define f...

Let X = {1, 2, 3, 4} and Y = {2, 3, 4, 5}. Define f : X → Y by 1, 2, 3, 4 → 4, 2, 5, 3. Check that f is one to one and onto and find the inverse function f -1.

2. Consider a consumer with preferences represented by the utility function: u(x,y)=3x+6sqrt(y) (a) Are these preferences...

2. Consider a consumer with preferences represented by the utility function: u(x,y)=3x+6sqrt(y) (a) Are these preferences strictly convex? (b) Derive the marginal rate of substitution. (c) Suppose instead, the utility function is: u(x,y)=x+2sqrt(y) Are these preferences strictly convex? Derive the marginal rate of sbustitution. (d) Are there any similarities or differences between the two utility functions?

Jim’s utility function for good x and good y is U(x, y) = X^1/4*Y^3/4. 1. Calculate...

Jim’s utility function for good x and good y is U(x, y) = X^1/4*Y^3/4. 1. Calculate Jim’s marginal utilities for good x and good y. 2. Calculate Jim’s Marginal rate of substation of his utility function.

Consider a consumer with preferences represented by the utility function: U(x,y) = 3x + 6 √...

Consider a consumer with preferences represented by the utility function: U(x,y) = 3x + 6 √ y   Are these preferences strictly convex? Derive the marginal rate of substitution Suppose, the utility function is: U(x,y) = -x +2 √ y   Are there any similarities or differences between the two utility functions?

3. Consider the utility function u ( x,y) = x1+ 3y1/3 i. Find the demand functions...

3. Consider the utility function u ( x,y) = x1+ 3y1/3 i. Find the demand functions for goods 1 and 2 as a function of prices and income. ii. Income expansion paths are curves in (x,y) space along which MRS is constant. Is this statement true for these preferences? iii. Why is the income effect 0

2.At the bundle (x, y) = (2, 4), what is the MRS of the utility function...

2.At the bundle (x, y) = (2, 4), what is the MRS of the utility function U = 3x + 4y? 1.You currently have (x, y) = (4, 1) and your utility function is U = min{x, 4y}. How many units of x are you willing to give up to get another unit of y? 3. You are currently at the bundle (x, y) = (4, 2) with a utility function U = (3/4) ln(x) + (1/4)ln(y). I offer you...

On set R2 define ∼ by writing(a,b)∼(u,v)⇔ 2a−b = 2u−v. Prove that∼is an equivalence relation on...

On set R2 define ∼ by writing(a,b)∼(u,v)⇔ 2a−b = 2u−v. Prove that∼is an equivalence relation on R2 In the previous problem: (1) Describe [(1,1)]∼. (That is formulate a statement P(x,y) such that [(1,1)]∼ = {(x,y) ∈ R2 | P(x,y)}.) (2) Describe [(a, b)]∼ for any given point (a, b). (3) Plot sets [(1,1)]∼ and [(0,0)]∼ in R2.