Suppose a pottery sells teapots and mugs. They can make a profit of P(x,y) = x^(3/2)*y^(1/2)...

1. Suppose the equation p(x,y)=-2x^2+80x-3y^2+90+100 models profit when x represents the number of handmade chairs and...

1. Suppose the equation p(x,y)=-2x^2+80x-3y^2+90+100 models profit when x represents the number of handmade chairs and y is the number of handmade rockers produced per week. (1) How many chairs and how many rockers will give the maximum profit when there is not constraint? (2) Due to an insufficient labor force they can only make a total of 20 chairs and rockers per week (x + y = 20). So how many chairs and how many rockers will give the...

1. In this problem, p and C are in dollars and x is the number of...

1. In this problem, p and C are in dollars and x is the number of units. A monopoly has a total cost function C = 1000 + 216x + 0x2 for its product, which has demand function p = 648 ? 3x ? 2x2. Find the consumer's surplus at the point where the monopoly has maximum profit. (Round your answer to the nearest cent.) 2. In this problem, p is in dollars and x is the number of units....

Suppose a company has fixed costs of $53,200 and variable cost per unit of 2 5...

Suppose a company has fixed costs of $53,200 and variable cost per unit of 2 5 x + 444 dollars, where x is the total number of units produced. Suppose further that the selling price of its product is 2372 − 3 5 x dollars per unit. (a) Find the break-even points. (Enter your answers as a comma-separated list.) x = (b) Find the maximum revenue. (Round your answer to the nearest cent.) $ (c) Form the profit function P(x)...

Suppose a company has fixed costs of $48,000 and variable cost per unit of 2/5x +...

Suppose a company has fixed costs of $48,000 and variable cost per unit of 2/5x + 444 dollars, where x is the total number of units produced. Suppose further that the selling price of its product is 2468 −3/5x dollars per unit. (a) Find the break-even points. (Enter your answers as a comma-separated list.) x =      (b) Find the maximum revenue. (Round your answer to the nearest cent.) $   (c) Form the profit function P(x) from the cost and...

Suppose there are only 2 nations A and B, and only two goods, x and y....

Suppose there are only 2 nations A and B, and only two goods, x and y. If nation A produces only x, it can make 16x per day. If nation A produces only y, it can make 4y per day. If nation B produces only x, it can make 20x per day. If nation B produces only y, it can make 4y per day. After trade begins, nation ________ will specialize in the production of x and nation ________ will...

An electronics company's profit P(x, y) from making x DVD players and y CD players per...

An electronics company's profit P(x, y) from making x DVD players and y CD players per day is given below. P(x, y) = 4x2 − 3xy + 3y2 + 150x + 73y + 220 (a) Find the marginal profit function for DVD players. Px(x, y) = (b) Evaluate your answer to part (a) at x = 200 and y = 300. Interpret the result. option 1: The profit increases per additional DVD player when 200 DVD and 300 CD players...

Assume we have two products X and Y . To make a X requires 1/2 hour...

Assume we have two products X and Y . To make a X requires 1/2 hour of cutting and 20 minutes of stitching. To make a Y requires 15 minutes of cutting and 1/2 hour of stitching. The profit on a X is 40 and on a pair of Y 50. The business operates for a maximum of 8 hours per day. Determine how many X and Y should be made to maximize profit and what the maximum profit is.

If the profit function for a product is P(x) = 4800x + 90x^2 − x^3 −...

If the profit function for a product is P(x) = 4800x + 90x^2 − x^3 − 199,000 dollars, selling how many items, x, will produce a maximum profit? x = items Find the maximum profit. $

Suppose f(x,y)=(1/8)(6-x-y) for 0<x<2 and 2<y<4. Find p(0.5 < X < 1) and p(2 < Y...

Suppose f(x,y)=(1/8)(6-x-y) for 0<x<2 and 2<y<4. Find p(0.5 < X < 1) and p(2 < Y < 3) Find p(Y<3|X=1) Find p(Y<3|0.5<X<1)

Suppose a company has fixed costs of $47,600 and variable cost per unit of 4/9x+ 333...

Suppose a company has fixed costs of $47,600 and variable cost per unit of 4/9x+ 333 dollars, where x is the total number of units produced. Suppose further that the selling price of its product is 1767 −5/9x x dollars per unit. (a) Find the break-even points. (Enter your answers as a comma-separated list.) x =      (b) Find the maximum revenue. (Round your answer to the nearest cent.) $   (c) Form the profit function P(x) from the cost and...