2. Find the technical rate of substitution (TRSKL) for the production function 9-(K +3L) A. ***
1. Suppose f(K,L)=[L+K]3, what is the MRTS? 2. Suppose f(K,L)=K(1/2)+L(1/2) Find the marginal rate of technical substitution. 3. f(K,L)=K(1/2)+L(1/2) Find the marginal rate of technical substitution.
Suppose that a companies production function is given by: f(L;K) = (10K^3L^2)/(L+K) a) Does this production function exhibit increasing, constant, or decreasing returns to scale? Algebraically justify your answer. b) If there is a wage of 10 and a rental rate of capital of 1, then find the company's expansion path.
You might think that when a production function has a diminishing marginal rate of technical substitution of labor for capital, it cannot have increasing marginal products of capital and labor. Show that this is not true, using the production function Q = L2K2.
2. Marginal products, RTS, and elasticity of substitution: Consider the following production function: q=k *11/4 a. For some w, y, use the Lagrangean method to derive demand functions by finding the cost-minimizing combinations of k and I in terms of q, w, and y (so the cost function is the objective function, and the production function is the constraint). (10 points) b. What is the rate of technical substitution (RTS) for this function? (5 points) C. Presume that the firm...
For the production function Q = 3L + K, returns to scale: is constant is increasing is decreasing Can be increasing, decreasing, or constant depending on the values of Land K.
3. For each of the following production functions, graph a typical isoquant and determine whether the marginal rate of technical substitution of labor for capital (MRTS ) is diminishing, constant, increasing, or none of these. a. Q=LK b. Q=LVK c. Q=L*K13 d. Q = 3L +K e. Q = min{3L, K}
Show transcribed image text 3. For each of the following production functions, graph a typical isoquant and determine whether the marginal rate of technical substitution of labor for capital...
Consider the production function given by y = f(L,K) = L^(1/2) K^(1/3) , where y is the output, L is the labour input, and K is the capital input. (a) Does this exhibit constant, increasing, or decreasing returns to scale? (b) Suppose that the firm employs 9 units of capital, and in the short-run, it cannot change this amount. Then what is the short-run production function? (c) Determine whether the short-run production function exhibits diminishing marginal product of labour. (d)...
Given the following production function, show the results in the LaGrange method or Marginal rate of substitution. Given that your budget is limited to 100, and the price of x = 5 and y = 10. Find the following. a) How much of x and y will be produced? b) What is the technical rate of substitution? If x represents humans and y machines, which of them will be working more?
Here we have the production function y=f(K,L)=K3L, where K is capital input and L is labor input. Let K>0, L>0. 1. What are the marginal products of capital and labor re- spectively? 2. Please compute the technical rate of substitution (we as- sume K is on the horizontal axis). 3. Dose this production function show diminishing technical rate of substitution (in absolute value) when K increases? Please give a brief proof. 4. Please prove that this production function features increas-...
Suppose the production function is Cobb-Douglas and f(x1, x2) =
x^1/2 x^3/2
(e) What's the technical rate of substitution TRS (11, 12)? (f) Does this technology have diminishing technical rate of substitution? (g) Does this technology demonstrate increasing, constant or decreasing returns to scale?