Sample HW 6 answers 1 a) Notice the SR expansion path shows no
Transcription
Sample HW 6 answers 1 a) Notice the SR expansion path shows no
Sample HW 6 answers 1 a) Q=200 The SR expansion path indicates that we will be at an inefficient point on the isoquants for Q<200. Output=L when L<200. Output cannot get higher than 200 in the SR L=200 Notice the SR expansion path shows no increase in output, even as L is increased. You can do this without input prices because efficient production is always at the “point” of the isoquant. b) Q = 2K = L K=Q/2 and L=Q LTC = 2K + 4L ---> LTC = 2(Q/2) + 4Q = 5Q LAC = 5 and LMC = 5 STC=2K+4L as well, but Q=2K=L. As noted in the SR expansion path, changing L cannot increase Q, but it can decrease Q. STC=2K+4L=200+4Q for Q200. (Note on grading: Give 2 points for LR costs, 1 point for SR costs). c) Economies of Scale relates the change in cost as output changes. In the SR, there are ultimate diseconomies of scale for Q>200 since Q cannot exceed 200. Given the STC, as Q falls SAC goes up so there are economies of scale for Q<200. In the LR, economies of scale are measured at efficient points. Since the expansion path is linear, and we know this production function has CRS, that means there are Constant economies of scale as well. (Note on grading – getting the LR economies of scale is sufficient). 2a) Q = RI ---> R = Q/I Short Run Variable Cost = VC = wR = 100*Q/I = 100*Q/1000 = 0.1Q Short Run Average Variable Cost = 0.1 Short Run Total Cost = FC + VC = 1*1000 + 0.1Q = 1000 + 0.1Q Short Run Average Fixed Cost = FC/Q = 1000/Q Short Run Marginal Cost = dTC/dQ = 0.1 SRTC for Q = 10000 is 1000 + 0.1(10000) = 2000 SRTC for Q = 12,000 is 1000 + 0.1(12000) = 2200 b) MRTS = I/R =100/1 I = 100R We know Q = RI which means Q = 100R2 or Q = I2/100 ---> R = Q1/2/10 and I = 10Q1/2 using the cost function 100R + I = LTC ---> 100(Q1/2/10) + 10Q1/2 =LTC ---> LTC = 20Q1/2 LTC for Q = 10,000 is 2000 and LTC for Q = 12000 is 2190.89. The difference comes from the fact that in short run the firm cannot adjust the amount of I it could use. Now in the long run I is no longer a fixed variable so the firm will optimize (minimize) its costs with respect to I and R. c) (tR)(tI) = t2RI ---> Increasing returns to scale LATC = 20/Q1/2 which is a decreasing function of Q. ---> The technology and costs shows Economies of Scale. Yes both are consistent. If Price of R is 121. Short Run Variable Cost = VC = wR = 100*Q/I = 121*Q/1000 = 0.121Q Short Run Total Cost = FC + VC = 1*1000 + 0.121Q = 1000 + 0.121Q Long Run Total cost function MRTS = w/r ---> I = 121R then Q = 121R2 or Q = I2/121 121R + I = LTC Plugging value of R and I in terms of Q we get LTC = 22Q1/2 So both the long run and short run costs go up and the price goes up. 3) This expansion path shows an extreme case. Really, it is likely to curve up to the left, so the ratio of K to L increases as output goes up The expansion path might look like this one where the L is not changing even when the auto mall has more cars in its inventory. Also looking at the green line, we can see that the output increases more than proportionate to the increase in input. So if the costs doubled, the output increased more than the costs. That is why we are talking about economies of scale. 4) Under the first strategy, the structure of the firms is not really changing. Only the collective input and output is different than the input and output usage of these small firms in isolation. Hence, a returns to scale analysis can give more insights as to how good this strategy is. By not combining physical plants, this strategy really shows scale changes as it is not showing any substitution between capital and labor. Under the second strategy, the structure of the organization is changing and that would prompt a change in the long run average cost of the firm. This can be studied relatively easily by studying economies of scale. By restructuring the mix of inputs, the venture capitalists are attempting to increase efficiency through input substitution. It is easy to study economies of scale and returns to scale when the expansion paths are straight lines but in real world when the expansion paths are nonlinear, it is difficult to compare these criteria. Therefore, we can't really say which strategy is better. 5)The first tax will have no effect on variable cost or marginal cost in the short run. This is because it does not affect wage or labor in short run and marginal cost when derived from total cost will drop the addition of the tax because it will be seen. The distance between ATC with tax and AVC should be equal to AFC with tax. In the long run the LAC curve will shift upwards and become steeper on the left side and asymptote with the old LAC curve on the right side. This is because as the firm produces more output the license fee will become relatively cheaper. Once again the MC curve will remain the same for the same reason as before. The second tax will cause a shift in AVC, ATC, and MC curves in the short run. This is because MC is a function of Quantity and now that quantity is more expensive MC must be higher. This causes a shift up in the ATC because it is a function of quantity as well and quantity now costs more. AVC have gone up because Average Product of Labor has now gotten more expensive because the firm will now produce less quantity. In the long run both MC and LRAC will increase for the same reasoning as before. The third tax will cause AVC, MC, and ATC all to increase while AFC will remain the same. This is because labor is a variable cost and it has now become more expensive which means that ATC must go up. Now every unit of output is more expensive because the labor to produce it is more expensive. In the long run costs have to increase because labor has increased in price. What will happen is the ATC curve will shift up and become steeper on the left hand side and asymptote with the old ATC curve. This is because as the firm produces more and more output they can substitute more labor for capital. MC shifts up as well in this situation for the same reason as in the short run. Extra Credit Question a) Q = (KL)1/2 Q=161/2L1/2=4L1/2 in the SR. Hence L=Q2/16 in the SR. STC=16+ Q2/16 SAC=16/Q+Q/16. SAVC=Q/16 SMC=Q/8 b) Long run cost curve First we find out the optimal combination i.e. MRTS = w/r ---> 0.5K-.5L.5/0.5K.5L-.5 = 1 --> K = L Putting this in our production function we get Q = K = L wK + rL = LTC Q + Q = LTC LTC = 2Q LAC = 2 and LMC = 2 c) Since the AC is constant, this is constant economies of scale. Also (tK)1/2(tL)1/2 = t(KL)1/2 ---> Satisfies Constant Returns to Scale