1. Chapter 8: Production and Cost in the Short Run McGraw-Hill/Irwin Copyright © 2011 by the McGraw-Hill Companies, Inc. All rights reserved.

2. 8-2 Basic Concepts of Production Theory Production function Maximum amount of output that can be produced from any specified set of inputs, given existing technology Technical efficiency Achieved when maximum amount of output is produced with a given combination of inputs Economic efficiency Achieved when firm is producing a given output at the lowest possible total cost

3. 8-3 Inputs are considered variable or fixed depending on how readily their usage can be changed Variable input An input for which the level of usage may be changed quite readily Fixed input An input for which the level of usage cannot readily be changed and which must be paid even if no output is produced Quasi-fixed input A “lumpy” or indivisible input for which a fixed amount must be used for any positive level of output None is purchased when output is zero Basic Concepts of Production Theory

4. 8-4 Short run At least one input is fixed All changes in output achieved by changing usage of variable inputs Long run All inputs are variable Output changed by varying usage of all inputs Basic Concepts of Production Theory

5. 8-5 Sunk Costs Sunk cost Payment for an input that, once made, cannot be recovered should the firm no longer wish to employ that input Not part of the economic cost of production Should be ignored for decision making purposes

6. 8-6 Avoidable Costs Avoidable costs Input costs the firm can recover or avoid paying should it no longer wish to employ that input Matter in decision making and should not be ignored Reflect the opportunity costs of resource use

7. 8-7 Short Run Production In the short run, capital is fixed Only changes in the variable labor input can change the level of output Short run production function Q = f (L, K) = f (L)

8. 8-8 Production Function 8-8

9. 8-9 Average & Marginal Products Average product of labor AP = Q/L Marginal product of labor MP =  Q/  L When AP is rising, MP is greater than AP When AP is falling, MP is less than AP When AP reaches it maximum, AP = MP Law of diminishing marginal product As usage of a variable input increases, a point is reached beyond which its marginal product decreases

10. 8-10 Total, Average, & Marginal Products of Labor, K = 2 (Table 8.2) Number of workers (L) Total product (Q)Average product (AP=Q/L) Marginal product (MP=  Q/  L) 00 152 2112 3170 4220 5258 6286 7304 8314 9318 10314 -- 55 51.6 52 56 56.7 47.7 43.4 39.3 35.3 31.4 -- 50 38 52 60 58 28 18 10 4 -4

11. 8-11 Total, Average, & Marginal Products K = 2 (Figure 8.1)

12. 8-12 Panel A Panel B Total product Average product Marginal product Q1Q1 L1L1 L1L1 L2L2 Q2Q2 L2L2 L0L0 Q0Q0 L0L0 Total, Average, & Marginal Product Curves

13. 8-13 Law of Diminishing Marginal Product (Returns) Only holds in the short-run As the quantity of the variable input (labor) increases, the capital to labor ratio declines Eventually an incremental increase in the variable input adds less to output than the previous incremental increase in the variable input 8- 13

14. 8-14 Change in Capital Stock 8- 14

15. 8-15 Change in Capital Stock 8- 15

16. 8-16 Short Run Production Costs Total variable cost (TVC) Total amount paid for variable inputs Increases as output increases Total fixed cost (TFC) Total amount paid for fixed inputs Does not vary with output Total cost (TC) TC = TVC + TFC

17. 8-17 Short-Run Total Cost Schedules (Table 8.4) Output (Q)Total fixed cost (TFC) Total variable cost (TVC) Total Cost (TC=TFC+TVC) 0$6,000 100 6,000 200 6,000 300 6,000 400 6,000 500 6,000 600 6,000 $ 0 14,000 22,000 4,000 6,000 9,000 34,000 $ 6,000 20,000 28,000 10,000 12,000 15,000 40,000

18. 8-18 Total Cost Curves (Figure 8.3)

19. 8-19 Average Costs Average variable cost (AVC) Average fixed cost (AFC) Average total cost (ATC)

20. 8-20 Short Run Marginal Cost Short run marginal cost (SMC) measures rate of change in total cost (TC) as output varies

21. 8-21 Average & Marginal Cost Schedules (Table 8.5) Output (Q) Average fixed cost (AFC=TFC/Q) Average variable cost (AVC=TVC/Q) Average total cost (ATC=TC/Q= AFC+AVC) Short-run marginal cost (SMC=  TC/  Q) 0 100 200 300 400 500 600 -- 15 12 $60 30 20 10 -- 35 44 $40 30 56.7 -- 50 56 $100 60 50 66.7 -- 50 80 $40 20 30 120

22. 8-22 Average & Marginal Cost Curves (Figure 8.4)

23. 8-23 Short Run Average & Marginal Cost Curves (Figure 8.5)

24. 8-24 Short Run Cost Curve Relations AFC decreases continuously as output increases Equal to vertical distance between ATC & AVC AVC is U-shaped Equals SMC at AVC’s minimum ATC is U-shaped Equals SMC at ATC’s minimum

25. 8-25 SMC is U-shaped Intersects AVC & ATC at their minimum points Lies below AVC & ATC when AVC & ATC are falling Lies above AVC & ATC when AVC & ATC are rising Short Run Cost Curve Relations

26. 8-26 Relations Between Short-Run Costs & Production In the case of a single variable input, short-run costs are related to the production function by two relations Where w is the price of the variable input

27. 8-27 Marginal Cost and Marginal Product Marginal cost is inversely related to marginal product

28. 8-28 Marginal Cost and Marginal Product W = $10 MP = 10 MC =$1 MP = 5 MC = $2 8- 28

29. 8-29 Average Variable Cost and Average Product Average variable cost is inversely related to average product

30. 8-30 Short-Run Production and Total Cost 8- 30

31. 8-31 Short-Run Production and Marginal cost 8- 31

32. 8-32 Short-Run Production & Cost Relations (Figure 8.6)

33. 8-33 Relations Between Short-Run Costs & Production When marginal product (average product) is increasing, marginal cost (average cost) is decreasing When marginal product (average product) is decreasing, marginal cost (average variable cost) is increasing When marginal product = average product at maximum AP, marginal cost = average variable cost at minimum AVC