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Differential Models of Production: Single Product Firm Lecture

Explore differential approach to production modeling, analyzing optimizing behavior changes, maximum output, minimum cost generation, and fundamental matrix equations.

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Differential Models of Production: Single Product Firm Lecture

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  1. Differential Models of Production: The Single Product Firm Lecture XXV

  2. Overview of the Differential Approach • Until this point we have mostly been concerned with envelopes or variations of deviations from envelopes in the case of stochastic frontier models. • The production function was defined as an envelope of the maximum output level that could be obtained from a given quantity of inputs.

  3. The cost function was the minimum cost of generating a fixed bundle of outputs based on a vector of input costs. • The differential approach departs from this basic formulation by examining changes in optimizing behavior.

  4. Starting from consumption theory we have • We assume that consumers choose the levels of consumption so that these first-order conditions are satisfied.

  5. The question is then what can we learn by observing changes in these first-order conditions or changes in the optimizing behavior.

  6. Differentiating the income constraint yields

  7. To finish the system, we differentiate the first-order conditions with respect to income, yielding

  8. Putting each of the bits into order, we have Barten’s fundamental matrix equation:

  9. Solving Barten’s fundamental matrix equation yields

  10. Differential Model of Production • Theil writes the production function in logarithmic space • The Cobb-Douglas function then becomes

  11. The Lagrange formulation for the logarithmic production function becomes

  12. As in the differential demand model, everything has to end up as a share equation, therefore

  13. Returning to the earlier expression

  14. A slightly more ominous form of this expression is then

  15. Logarithmically differentiating with respect to the output level, ln(z) , yields

  16. Given

  17. Logarithmically differentiating with respect to input prices yields

  18. Again apply the first-order conditions

  19. Which becomes

  20. Finally, like the demand model, we differentiate the production constraint with respect to output level and input prices. • Taking the differential with respect to output level

  21. Taking the differential with respect to input the natural logarithm of input prices yields

  22. Putting these bits together

  23. Backing up slightly, we start with Pre-multiplying this matrix equation by F-1 yields

  24. Next, multiplying the first term by a special form of the identity matrix F-1F = I yields

  25. Using a similar process

  26. The matrix-Barten’s equation then becomes

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