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Costs and Supply

2. Production Functions. Thus far we've talked about demand. Let's start looking at supply!We wish to relate outputs to some measure of inputs.Consider the police, for exampleWhat are the outputs?What are the inputs?. 3. Production functions. Let:Q = f (L, K, X)L = LaborK = CapitalX = O

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Costs and Supply

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    1. 1 Costs and Supply © Allen C. Goodman, 2008

    2. 2 Production Functions Thus far we’ve talked about demand. Let’s start looking at supply! We wish to relate outputs to some measure of inputs. Consider the police, for example What are the outputs? What are the inputs?

    3. 3 Production functions Let: Q = f (L, K, X) L = Labor K = Capital X = Other materials and supplies Presumably, as L, K, or X ?, what would happen to Q? Why?

    4. 4 Another Way to Look at it Let’s let: Q = f (L, K, X, E) L = Labor K = Capital X = Other materials and supplies E = Economic environment, including type of population Maybe some people volunteer in schools, maybe individuals patrol their neighborhoods. Maybe some students are easier to teach than others. All of these may have additional impacts on output.

    5. 5 Fisher Distinguishes between Direct Outputs and Consumption

    6. 6 Two Types of Pictures Typically, all else equal, more inputs ? more output, but at a decreasing rate. What does this imply about marginal product?

    7. 7 Expenditures To get output, we must spend money on factors of production, or inputs. Cost of output 1 is: Cost = wL1 + rK1 + pX1 w, r, and p might refer to wage rates (cost of labor), rental fees (cost of capital), and other materials prices.

    8. 8 Putting them Together We have talked about consumption indifference curves. Let’s do production indifference curves, sometimes called isoquants. Pick two inputs

    9. 9 So … when people talk about cutting expenditures … and saving … They are implying that current production is inefficient. What exactly does “efficient” mean? They are saying that they want lower levels of public services.

    10. 10 Elasticity of substitution, ?. ? = the % change in the factor input ratio, brought about by a 1% change in the factor price ratio.

    11. 11 Elasticity of substitution, ?. ? = the % change in the factor input ratio, brought about by a 1% change in the factor price ratio.

    12. 12 Elasticity of substitution, ?. ? = the % change in the factor input ratio, brought about by a 1% change in the factor price ratio.

    13. 13 Some Production Functions Several different types of production functions. The typical Cobb-Douglas production function for capital and labor can be written as: Q = A L? K? or ln Q = ln A + a ln L + ß ln K It turns out that there is a property of the Cobb-Douglas function that ? = 1. What does this mean? This gives an interesting result that factor shares stay constant. Why? s = wL / rK s = (w/r) x (L/K) Increase in (w/r) means that (L/K) should fall. With matching 1% changes, shares stay constant.

    14. 14 Consider Cobb-Douglas production function with capital and labor. Q = A La Kb If profits are: ? = pQ - rK - wL, when we substitute in for the quantity relationship, we get: Differentiating with respect to L and K, we get: ? ? /? L = aALa-1 Kb - w= 0 ? ? /? K = bALaKb-1 - r= 0 Simplifying, we get: [(a/b] (K/L) = w/r (a/b) k = ? ? ?/k = a/b (a/b) dk = d? ? dk/d? = b/a Elas = (dk/d?)(?/k) = (b/a)*(a/b)= 1 ! Production Functions – CD

    15. 15 Consider C.E.S. production function with capital and labor. Q = A [?K? + (1-?) L?] R/?. If profits are: ? = pQ - rK - wL, when we substitute in for the quantity relationship, we get: Differentiating with respect to L and K, we get: ? ? /? L = A(R/?) ?(1-?) L?-1[?K? + (1-?) L?] (R/?)-1 - w= 0 ? ? /? K = A(R/?) ?? K?-1 [?K? + (1-?) L?] (R/?)-1 - r= 0 Simplifying, we get: [(1-?)/?] (K/L)1-? = w/r Production Functions

    16. 16 Production Functions Redefine k = K/L, and ? = w/r, so: [(1-?)/?] k1-? = ? Now, differentiate fully. We get: [(1-?)/?] (1-?) k-? dk = d?, or: dk/d? = [?/(1-?)] [1/(1-?)] k?. Multiplying by ?/k, we get the elasticity of substitution, or: ? = 1/(1-?). What does a Cobb-Douglas function look like? What do others look like?

    17. 17 What if workers negotiate a wage hike? Why does line rotate inward? What must occur? Either reduce quantity produced or Increase costs! What if capital is a good substitute for labor? What if it isn’t?

    18. 18 Do Local Governments Minimize Costs? Model above showed how either output could be maximized, or costs minimized. In a competitive model, competition will (in theory) lead to minimum cost production. Will this happen among localities?

    19. 19 Baumol’s Cost Hypothesis Consider two sectors. He calls them Progressive – subject to productivity improvements. Traditional – Generally more labor intensive and not subject to productivity improvements. What happens?

    20. 20 Two Sectors

    21. 21 Two Sectors

    22. 22 Two Sectors

    23. 23 Does this apply? In some cases yes; in others, no. If you’re doing a woodwind quintet, it’s hard to do much substitution. On the other hand, rock bands can do so much more now with synthesizers than they ever did! Bill Clinton thought it applied to health care. I was never sure that it did (or does).

    24. 24 Fisher (P. 154-5) – Good summary Costs of state-local goods seem to have gone up relative to private sector over the last 20 years. Fiscal pressure on states and localities was somewhat hidden in 1990s because the overall national economy grew quickly and provided lots of revenues. With national recession in 2001, and slow growth since then, we have seen increasing costs for state-local sector and increasing fiscal pressure. Possible solutions? Use of new technology Substitute private production for public production

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