1. Microeconomia Corso E John Hey

2. Compito a casa/Homework CES technology with parameters c 1 =0.4, c 2 =0.5, ρ=0.9 and s=1.0. The production function: y = ((0.4q 1 -0.9 )+(0.5q 2 -0.9 )) -1/0.9 I have inserted the isoquant for output = 40 (and also that for output=60). I have inserted the lowest isocost at the prices w 1 = 1 and w 2 = 1 for the inputs. The optimal combination: q 1 = 33.38 q 2 = 37.54 and the cost = 33.58+37.54 = 70.92.

4. What you should do Find the optimal combination (either graphically or otherwise) and the (minimum) cost to produce the output for the following: w 1 = 2 w 2 = 1 y=40 w 1 = 3 w 2 = 1 y=40 w 1 = 1 w 2 = 1 y=60 w 1 = 2 w 2 = 1 y=60 w 1 = 3 w 2 = 1 y=60 Put the results in a table.

7. Results yw1w1 w2w2 q1q1 q2q2 costo 401132.437.570.9 402127.945.2101.1 403125.551.2127.7 601150.156.3106.4 602141.967.9151.7 603138.376.7191.6

8. Chapter 12 The total cost C(y) is the minimum cost to produce a given level of output y. It is always upward-sloping (in the long period passes through the origin) and its shape depends upon the returns to scale: decreasing ↔ convex constant ↔ linear increasing ↔ concave

9. Chapter 12 The total cost C(y) is the minimum cost to produce a given level of output y. The average cost = C(y)/y – is the slope of the line from the origin to the total cost curve. The marginal cost – the rate at which total cost increases with output – is equal to the slope of the total cost curve.

10. Constant returns to scale Total cost

11. Constant returns to scale Marginal cost

12. Decreasing returns to scale Total cost

13. Two examples

14. Average cost at an output of 40

15. Average cost at the output of 80

16. The average cost curve

17. Marginal cost at the output 40

18. Marginal cost at the output 80

19. The marginal cost curve

20. From the total cost curve to the marginal cost curve and back. The marginal cost curve is the slope of the total cost curve...... hence the total cost curve is the area under the marginal cost curve. The marginal cost curve is the derivative of the total cost curve...... hence the total cost curve is the integral of the marginal cost curve.

21. Constant returns to scale

23. Decreasing returns to scale

25. Chapter 13 Today we find the optimal output for a perfectly competitive firm......that takes the price of its output as given. We will assume to begin with that the firm has decreasing returns to scale. We will see later that there are problems if the firm has increasing returns to scale.

26. Chapter 13 We use the following notation: y for the level of output. p for the price of the output. C(y) for the total (minimum) cost to produce a level of output y. We find the condition for the optimal output of the firm and hence its supply curve. We prove a familiar result about the profits/surplus of the firm.

30. Chapter 13 The condition for the optimal output: p = marginal cost...... where marginal cost is rising. It follows that the supply curve of the firm is simply its marginal cost curve. The profit/surplus of the firm is the area between the price and its supply curve.

31. Chapter 13 Goodbye!