Suppose that the production function is given by Q=100K0.8L0.2 . Prove that the production function has...

Suppose the production function for widgets is given by: q = kl – 0.8k2 – 0.2l2,...

Suppose the production function for widgets is given by: q = kl – 0.8k2 – 0.2l2, where q represents the annual quantity of widgets produced, k represents annual capital input, and l represents annual labor input. Which of the following statements is correct? a. The widget production function exhibits constant returns to scale. b. The widget production function exhibits increasing returns to scale. c. The widget production function exhibits decreasing returns to scale. d. The widget production function is homogeneous...

Suppose that you are given the following production function: Q = 100K0.6L0.4 For each of the...

Suppose that you are given the following production function: Q = 100K0.6L0.4 For each of the following production functions, determine whether returns to scale are decreasing, constant, or increasing when capital and labor inputs are increased from K = L = 1 to K = L = 2. a. Q = 25K0.5L0.5 b. Q = 2K + 3L + 4KL

Suppose that a firm has the Cobb-Douglas production function Q = 12K ^ (0.75) L^ (0.25)....

Suppose that a firm has the Cobb-Douglas production function Q = 12K ^ (0.75) L^ (0.25). Because this function exhibits (constant, decreasing, increasing) returns to scale, the long-run average cost curve is (upward-sloping, downward-sloping, horizontal), whereas the long-run total cost curve is upward-sloping, with (an increasing, a declining, a constant) slope. Now suppose that the firm’s production function is Q = KL. Because this function exhibits (constant, decreasing, increasing) returns to scale, the long-run average cost curve is (upward-sloping, downward-sloping,...

Suppose a firm’s production function is given by Q = 2K^1/2 * L^1/2 , where K...

Suppose a firm’s production function is given by Q = 2K^1/2 * L^1/2 , where K is capital used and L is labour used in the production. (a) Does this production function exhibit increasing returns to scale, constant returns to scale or decreasing returns to scale? (b) Suppose the price of capital is r = 1 and the price of labour is w = 4. If a firm wants to produce 16 chairs, what combination of capital and labor will...

Suppose the production function for widgets is given by              q = kl -0.8k2- 0.2l2, where...

Suppose the production function for widgets is given by              q = kl -0.8k2- 0.2l2, where q represents the annual quantity of widgets produced, k represents annual capital input, and l represents annual labor input. Suppose k = 10; graph the total and average productivity of labor curves. At what level of labor input does this average productivity reach maximum? How many widgets are produced at that point? Again, assuming that k = 10, graph the MPL curve. At what...

2. A firm has the following linear production function: q = 5L + 2K a. Does...

2. A firm has the following linear production function: q = 5L + 2K a. Does this firm’s production function exhibit diminishing returns to labor?    b. Does this production function exhibit diminishing returns to capital? c. Graph the isoquant associated with q = 20. d. What is the firm’s MRTS between K and L? e. Does this production technology exhibit decreasing, constant, or increasing returns to scale?

Cobb-Douglas Production Function & Cost of Production A firm’s production function is given as – q...

Cobb-Douglas Production Function & Cost of Production A firm’s production function is given as – q = 2K0.4N0.6 What kind of returns to scale does this production technology exhibit? Justify your answer. Find out the expression for the marginal product of labor. Find out the expression for the marginal product of capital. Find out the expression for MRTS.

1) The production function Q = 50K0.25L0.25 exhibits A. increasing returns to scale. B. constant returns...

1) The production function Q = 50K0.25L0.25 exhibits A. increasing returns to scale. B. constant returns to scale. C. decreasing returns to scale. Answer D. increasing, then diminishing returns to scale. E. negative returns to scale. 2) The production function Q = 50K0.25L0.75 exhibits A. increasing, then diminishing returns to scale. B. increasing returns to scale. C. decreasing returns to scale. D. constant returns to scale. Answer E. negative returns to scale. could you please explaing me the reason of...

The production function Q = 20K0.75L0.25 exhibits A decreasing returns to scale. B constant returns to...

The production function Q = 20K0.75L0.25 exhibits A decreasing returns to scale. B constant returns to scale. C increasing returns to scale. D increasing, then diminishing returns to scale. E negative returns to scale.

Answer the following questions about the producer’s production function: Q = 2K1/2L2 Does the production function...

Answer the following questions about the producer’s production function: Q = 2K1/2L2 Does the production function display increasing, constant, or decreasing returns to scale? [Prove your answer by increasing all inputs by a factor of c in your analysis.] Find MPL if capital is fixed at K0=9 and determine whether the production process follows the law of diminishing returns (LDR) to labor. If input prices are r=5 and w=4 for capital and labor, respectively, and suppose MPK=40 and the firm...