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Production and Costs.

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Presentation on theme: "Production and Costs."— Presentation transcript:

1 Production and Costs

2 In this chapter, look for the answers to these questions:
What is a production function? What is marginal product? How are they related? What are the various costs, and how are they related to each other and to output? How are costs different in the short run vs. the long run? What are “economies of scale”? 2

3 The Production Function
Relationship between Quantity of inputs used to make a good And the quantity of output of that good Gets flatter as production rises It can be represented by a table, equation, or graph. Input sometimes called factors of production to produce output.

4 Example 1: Farmer Jack’s Production Function
500 1,000 1,500 2,000 2,500 3,000 1 2 3 4 5 No. of workers Quantity of output Q (bushels of wheat) L (no. of workers) 1000 1 1800 2 2400 3 2800 4 3000 5 THE COSTS OF PRODUCTION 4

5 Marginal Product The marginal product of any input is the increase in output arising from an additional unit of that input, holding all other inputs constant. Notation: ∆ (delta) = “change in…” Examples: ∆Q = change in output, ∆L = change in labor Marginal product of labor (MPL) = ∆Q ∆L

6 EXAMPLE 1: Total & Marginal Product
3000 5 2800 4 2400 3 1800 2 1000 1 Q (bushels of wheat) L (no. of workers) MPL ∆Q = 1000 ∆L = 1 1000 ∆Q = 800 ∆L = 1 800 ∆Q = 600 ∆L = 1 600 ∆Q = 400 ∆L = 1 400 ∆Q = 200 ∆L = 1 200 THE COSTS OF PRODUCTION 6

7 EXAMPLE 1: MPL = Slope of Prod Function
500 1,000 1,500 2,000 2,500 3,000 1 2 3 4 5 No. of workers Quantity of output L (no. of workers) Q (bushels of wheat) MPL MPL equals the slope of the production function. Notice that MPL diminishes as L increases. This explains why the production function gets flatter as L increases. 1000 1 1000 800 2 1800 600 3 2400 400 4 2800 200 5 3000 THE COSTS OF PRODUCTION 7

8 Production and Costs Diminishing marginal product Total-cost curve
Marginal product of an input declines as the quantity of the input increases Total-cost curve Relationship between quantity produced and total costs Gets steeper as the amount produced rises

9 Total Revenue, Total Cost, Profit
We assume that the firm’s goal is to maximize profit. Profit = Total revenue – Total cost the amount a firm receives from the sale of its output the market value of the inputs a firm uses in production

10 Costs: Explicit vs. Implicit
Costs as opportunity costs The cost of something is what you give up to get it Firm’s cost of production Include all the opportunity costs of making its output of goods and services Explicit costs Implicit costs

11 Costs: Explicit vs. Implicit
Explicit costs Input costs that require an outlay of money by the firm Implicit costs Input costs that do not require an outlay of money by the firm Ignored by accountants Total costs Explicit costs + Implicit costs

12 Explicit vs. Implicit Costs: An Example
You need $100,000 to start your business. The interest rate is 5%. Case 1: borrow $100,000 explicit cost = $5000 interest on loan Case 2: use $40,000 of your savings, borrow the other $60,000 explicit cost = $3000 (5%) interest on the loan implicit cost = $2000 (5%) foregone interest you could have earned on your $40,000. In Case 2, the foregone interest is the interest you could have earned on your savings. It is an opportunity cost. This example shows that an important implicit cost is the cost of capital, the foregone returns you could have earned had you used your savings to buy bonds or other assets instead of investing them in your business. The hope is that students will see that what really matters to them is not just the explicit costs, but total (implicit + explicit) costs. In both cases, total (exp + imp) costs are $5000. THE COSTS OF PRODUCTION 12

13 Economic Profit vs. Accounting Profit
= total revenue minus total explicit costs Economic profit = total revenue minus total costs (including explicit and implicit costs) Accounting profit ignores implicit costs, so it’s higher than economic profit.

14 Economists include all opportunity costs when analyzing a firm, whereas accountants measure only explicit costs. Therefore, economic profit is smaller than accounting profit.

15 EXAMPLE 1: Farmer Jack’s Costs
L (no. of workers) Q (bushels of wheat) Cost of land Cost of labor Total Cost $1,000 $10,000 $8,000 $6,000 $4,000 $2,000 $0 $11,000 $9,000 $7,000 $5,000 $3,000 $1,000 1 1000 2 1800 3 2400 4 2800 5 3000 THE COSTS OF PRODUCTION 15

16 EXAMPLE 1: Farmer Jack’s Total Cost Curve
Q (bushels of wheat) Total Cost $1,000 1000 $3,000 1800 $5,000 2400 $7,000 2800 $9,000 3000 $11,000 THE COSTS OF PRODUCTION 16

17 Various Measures of Cost
Fixed costs Costs that do not vary with the quantity of output produced Variable costs Costs that vary with the quantity of output produced Total cost Fixed cost + Variable cost

18 Costs in Short and Long Run
Many decisions Fixed in the short run Short run: Some inputs are fixed (e.g., factories, land). The costs of these inputs are FC. Variable in the long run All inputs are variable (e.g., firms can build more factories, or sell existing ones).

19 EXAMPLE 2: Costs Q FC VC TC 100 $100 520 380 280 210 160 120 70 $0 620
$800 FC Q FC VC TC VC $700 100 $100 520 380 280 210 160 120 70 $0 620 480 380 310 260 220 170 $100 TC $600 1 $500 2 Costs $400 3 $300 4 $200 5 $100 6 $0 7 1 2 3 4 5 6 7 Q THE COSTS OF PRODUCTION 19

20 Marginal cost Marginal cost The change in a firm’s total cost from producing one more unit of a good or service. MC= ∆TC/ ∆Q Rising marginal cost curve Because of diminishing marginal product

21 EXAMPLE 2: Marginal Cost
Q TC MC Recall, Marginal Cost (MC) is the change in total cost from producing one more unit: $100 $70 1 170 ∆TC ∆Q MC = 50 2 220 40 3 260 Usually, MC rises as Q rises, due to diminishing marginal product. Sometimes (as here), MC falls before rising. (In other examples, MC may be constant.) 50 4 310 70 5 380 100 6 480 140 7 620 THE COSTS OF PRODUCTION 21

22 Why Marginal Cost is U-shaped
When the marginal product of labor is raising the marginal cost of output is falling. When the marginal product of labor is falling the marginal cost of production is raising. Labour Quantity Marginal Product of Labour (MPL) Total Cost Marginal Cost (MC) $ - 800 1 200 1450 3.25 2 450 250 2100 2.60 3 550 100 2750 6.50 4 600 50 3400 13.00 THE COSTS OF PRODUCTION 22

23 Various Measures of Cost
Average total cost (ATC) equals total cost divided by the quantity of output: ATC = TC/Q Cost of a typical unit of output ATC = AFC + AVC Average fixed cost (AFC), Fixed cost divided by the quantity of output produced= FC/Q Average variable cost (AVC), Variable cost divided by the quantity of output produced=VC/Q

24 Various Measures of Cost
U-shaped average total cost curve ATC = AVC + AFC AFC – always declines as output rises AVC – typically rises as output increases Because of diminishing marginal product The bottom of the U-shape At quantity that minimizes average total cost

25 © 2012 Cengage Learning. All Rights Reserved.
Cost Curves for a Typical Firm Costs 1.00 0.50 2.00 1.50 2.50 $3.00 Many firms experience increasing marginal product before diminishing marginal product. As a result, they have cost curves shaped like those in this figure. Notice that marginal cost and average variable cost fall for a while before starting to rise. ATC MC AFC AVC Quantity of Output 2 4 6 8 10 12 14 © 2012 Cengage Learning. All Rights Reserved.

26 Various Measures of Cost
Efficient scale Quantity of output that minimizes ATC Relationship between MC and ATC When MC < ATC: average total cost is falling When MC > ATC: average total cost is rising The marginal-cost curve crosses the average-total-cost curve at its minimum

27 EXAMPLE 2: ATC and MC When MC < ATC, ATC ATC is falling.
$0 $25 $50 $75 $100 $125 $150 $175 $200 1 2 3 4 5 6 7 Q Costs When MC < ATC, ATC is falling. When MC > ATC, ATC is rising. The MC curve crosses the ATC curve at the ATC curve’s minimum. ATC MC THE COSTS OF PRODUCTION 27

28 Costs in Long Run Long-run average cost curve A curve showing the lowest cost at which a firm is able to produce a given quantity of output in the long run, when no inputs are fixed. In the long run, ATC at any Q is cost per unit using the most efficient mix of inputs for that Q (e.g., the factory size with the lowest ATC).

29 © 2012 Cengage Learning. All Rights Reserved.
Average Total Cost in the Short and Long Runs Average Total Cost ATC in short run with medium factory ATC in short run with large factory ATC in short run with small factory ATC in long run Economies of scale Diseconomies of scale $12,000 1,200 10,000 Constant returns to scale 1,000 Quantity of Cars per Day Because fixed costs are variable in the long run, the average-total-cost curve in the short run differs from the average-total-cost curve in the long run. © 2012 Cengage Learning. All Rights Reserved.

30 How ATC Changes as the Scale of Production Changes
Economies of scale: ATC falls as Q increases. Constant returns to scale: ATC stays the same as Q increases. Diseconomies of scale: ATC rises as Q increases. Q ATC LRATC THE COSTS OF PRODUCTION 30

31 Costs in Long Run Economies of scale The situation when a firm’s long-run average total costs fall as it increases output Increasing specialization among workers . Constant returns to scale Long-run average total cost stays the same as the quantity of output changes Diseconomies of scale The situation when a firm’s long-run average costs rise as the firm increases output. Increasing coordination problems

32 Conclusion Table 10-4 A Summary of Definitions of Cost TERM DEFINITION
SYMBOLS AND EQUATIONS Total cost The cost of all the inputs used by a firm, or fixed cost plus variable cost TC Fixed costs Costs that remain constant when a firm’s level of output changes FC Variable costs Costs that change when the firm’s level of output changes VC Marginal cost Increase in total cost resulting from producing another unit of output Average total cost Total cost divided by the quantity of output produced Average fixed cost Fixed cost divided by the quantity of output produced Average variable cost Variable cost divided by the quantity of output produced Implicit cost A nonmonetary opportunity cost Explicit cost A cost that involves spending money

33 EXERCISE Table 13-1 Listed in the table are the long-run total costs for three different firms. Refer to Table Firm A is experiencing economies of scale. ANS: T/F Quantity 1 2 3 4 5 Firm A 100 Firm B 200 300 400 500 Firm C 600 1,000 1,500


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