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© 20002003 Douglas A. Ruby Revised: 01/18/2003 A Producer Optimum Costs in the Short Run Production in the Long Run Microeconomic Theory 
in the Long Run The Marginal Rate of Technical Substitution Given the following production function: X = f(L, K)we can write (via total differentiation): ΔX = MP_{L}ΔL + MP_{K}ΔK,that is, changes in output (in the long run) are measured as the sum of changes in labor input (via the marginal productivity of labor) and / or changes in capital (via the marginal productivity of capital). Holding output constant (ΔX = 0, as we would on a given production isoquant), we can derive: 0 = MP_{L}ΔL + MP_{K}ΔK,or ΔK / ΔL = MP_{L} / MP_{K},This last result defines the slope of a Production Isoquant 'ΔK / ΔL' as being equal to the ratio of marginal productivities 'MP_{L} / MP_{K}'. This ratio is also known as the Marginal Rate of Technical Substitution (MRTS) or the rate by which one factor may be substituted for another. Using the CobbDouglas production function as a particular mathematical function we can derive: X = AL^{α}K^{β}and MP_{L} = αAL^{α1}K^{β} = αX/Land the Marginal Rate of Technical Substitution: MRTS = MP_{L} / MP_{K} = αK / βL.In the case of CobbDouglas technologies, the MRTS is proportional to the ratio of factor inputs used. Profit Maximization Given a profit equation: π = P[f(L, K)]  (wL + rK)where the term in the square brackets represent output via the production function [X = f(L,K)]. The firstorder conditions are: dπ/dL = P[MP_{L}]  w = 0and dπ/dK = P[MP_{K}]  r = 0.If we solve for 'P' (the market price of the output) in both equations and set them equal to each other we have: MP_{L}/w = MP_{K}/ror MP_{L} / MP_{K} = w/r The condition for profit maximization (or cost minimization) is where the MRTS is just equal to the ratio of factorinput prices ('w' & 'r'). This condition is known as a Producer Optimum in the Long Run and defined for a given level of output 'X_{0}' as shown at point 'A' in figure 1 below. Note that in the case of the CobbDouglas production function, the Producer Optimum may be defined as: αK / βL = (w/r)or the costminimizing combination of these two inputs is: K / L = (β/α) (w/r)or K = (β/α) (w/r)L.For example if the specific CobbDouglas production function is estimated as: X = 1000L^{0.80}K^{0.20}and the wage rate 'w' is equal to $20.00 and cost per unit of capital 'r' is equal to $10.00, K = (1/4) (2/1)Lor K = (1/2)LThe firm would use capital and labor in a 1:2 ratio (2 units of labor for each unit of capital). This makes sense since labor is fourtimes as productive as a unit of capital (α=0.80 and β =0.20) but only twice as expensive. Long Run Costs A cost equation may be written as: C = wL + rKor solving for K = f(L)  slopeintercept form: K = C_{o}/r + (w/r)L. This expression is known as the IsoCost line or line of equal costs with a slope defined by the ratio of factor prices (w/r) and shown in the above diagram (figure 1) as the navyblue line. Changes to output levels would require more of both inputs such that costs would increase. As long as the ratio of factor prices does not change, the ratio of factorintput use will also not change. An increase in one of the factor prices will lead the profitmaximizing (costminimizing) firm to substitute away from the factor that has become more expensive and towards the relatively cheaper factorinput. For example, an increase in the wage rate will lead the firm to find a different combination of inputs in order to produce the same level of output. In this case the firm will substitute away from labor (L_{0} > L_{1}) and towards capital (K_{0} > K_{1}) as shown in the diagram below: In the case of a CobbDouglas technology this substitution is possible such that costs at point 'B' have increased relative to point 'A' but by a smaller amount than if substitution were not possible. ΔCosts = (Δ_{[+]}w) [L_{1}  L_{0}] + (r)[K_{1}  K_{0}]but (Δ_{[+]}w) [L_{1}  L_{0}] + (r)[K_{1}  K_{0}] < (Δ_{[+]}w)[L_{0}] + (r)[K_{0}] This would occur with a Leontief technology where factorinputs must always be used in fixed proportion. In this case the costs of production would increase in direct proportion to the increase in the wage rate: ΔCosts = (Δw)L_{0}This helps explain why factor price increases are strongly resisted in industries governed by a Leontief technology. Concepts for Review:
