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Chapter Twenty-Four Monopoly. Pure Monopoly u A monopolized market has a single seller. u The monopolist’s demand curve is the (downward sloping) market.

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Presentation on theme: "Chapter Twenty-Four Monopoly. Pure Monopoly u A monopolized market has a single seller. u The monopolist’s demand curve is the (downward sloping) market."— Presentation transcript:

1 Chapter Twenty-Four Monopoly

2 Pure Monopoly u A monopolized market has a single seller. u The monopolist’s demand curve is the (downward sloping) market demand curve. u So the monopolist can alter the market price by adjusting its output level.

3 Pure Monopoly Output Level, y $/output unit p(y) Higher output y causes a lower market price, p(y).

4 Why Monopolies? u What causes monopolies? –a legal fiat; e.g. US Postal Service

5 Why Monopolies? u What causes monopolies? –a legal fiat; e.g. US Postal Service –a patent; e.g. a new drug

6 Why Monopolies? u What causes monopolies? –a legal fiat; e.g. US Postal Service –a patent; e.g. a new drug –sole ownership of a resource; e.g. a toll highway

7 Why Monopolies? u What causes monopolies? –a legal fiat; e.g. US Postal Service –a patent; e.g. a new drug –sole ownership of a resource; e.g. a toll highway –formation of a cartel; e.g. OPEC

8 Why Monopolies? u What causes monopolies? –a legal fiat; e.g. US Postal Service –a patent; e.g. a new drug –sole ownership of a resource; e.g. a toll highway –formation of a cartel; e.g. OPEC –large economies of scale; e.g. local utility companies.

9 Pure Monopoly u Suppose that the monopolist seeks to maximize its economic profit, u What output level y* maximizes profit?

10 Profit-Maximization At the profit-maximizing output level y* so, for y = y*,

11 y $ R(y) = p(y)y Profit-Maximization

12 $ R(y) = p(y)y c(y) Profit-Maximization y

13 $ R(y) = p(y)y c(y) y  (y)

14 Profit-Maximization $ R(y) = p(y)y c(y) y  (y) y*

15 Profit-Maximization $ R(y) = p(y)y c(y) y  (y) y*

16 Profit-Maximization $ R(y) = p(y)y c(y) y  (y) y*

17 Profit-Maximization $ R(y) = p(y)y c(y) y  (y) y* At the profit-maximizing output level the slopes of the revenue and total cost curves are equal; MR(y*) = MC(y*).

18 Marginal Revenue Marginal revenue is the rate-of-change of revenue as the output level y increases;

19 Marginal Revenue Marginal revenue is the rate-of-change of revenue as the output level y increases; dp(y)/dy is the slope of the market inverse demand function so dp(y)/dy < 0. Therefore for y > 0.

20 Marginal Revenue E.g. if p(y) = a - by then R(y) = p(y)y = ay - by 2 and so MR(y) = a - 2by 0.

21 Marginal Revenue E.g. if p(y) = a - by then R(y) = p(y)y = ay - by 2 and so MR(y) = a - 2by 0. p(y) = a - by a y a/b MR(y) = a - 2by a/2b

22 Marginal Cost Marginal cost is the rate-of-change of total cost as the output level y increases; E.g. if c(y) = F +  y +  y 2 then

23 Marginal Cost F y y c(y) = F +  y +  y 2 $ MC(y) =  + 2  y $/output unit 

24 Profit-Maximization; An Example At the profit-maximizing output level y*, MR(y*) = MC(y*). So if p(y) = a - by and c(y) = F +  y +  y 2 then

25 Profit-Maximization; An Example At the profit-maximizing output level y*, MR(y*) = MC(y*). So if p(y) = a - by and if c(y) = F +  y +  y 2 then and the profit-maximizing output level is

26 Profit-Maximization; An Example At the profit-maximizing output level y*, MR(y*) = MC(y*). So if p(y) = a - by and if c(y) = F +  y +  y 2 then and the profit-maximizing output level is causing the market price to be

27 Profit-Maximization; An Example $/output unit y MC(y) =  + 2  y p(y) = a - by MR(y) = a - 2by a 

28 Profit-Maximization; An Example $/output unit y MC(y) =  + 2  y p(y) = a - by MR(y) = a - 2by a 

29 Profit-Maximization; An Example $/output unit y MC(y) =  + 2  y p(y) = a - by MR(y) = a - 2by a 

30 Monopolistic Pricing & Own-Price Elasticity of Demand u Suppose that market demand becomes less sensitive to changes in price (i.e. the own-price elasticity of demand becomes less negative). Does the monopolist exploit this by causing the market price to rise?

31 Monopolistic Pricing & Own-Price Elasticity of Demand

32 Own-price elasticity of demand is

33 Monopolistic Pricing & Own-Price Elasticity of Demand Own-price elasticity of demand is so

34 Monopolistic Pricing & Own-Price Elasticity of Demand Suppose the monopolist’s marginal cost of production is constant, at $k/output unit. For a profit-maximum which is

35 Monopolistic Pricing & Own-Price Elasticity of Demand E.g. if  = -3 then p(y*) = 3k/2, and if  = -2 then p(y*) = 2k. So as  rises towards -1 the monopolist alters its output level to make the market price of its product to rise.

36 Monopolistic Pricing & Own-Price Elasticity of Demand Notice that, since

37 Monopolistic Pricing & Own-Price Elasticity of Demand Notice that, since

38 Monopolistic Pricing & Own-Price Elasticity of Demand Notice that, since That is,

39 Monopolistic Pricing & Own-Price Elasticity of Demand Notice that, since That is,

40 Monopolistic Pricing & Own-Price Elasticity of Demand Notice that, since That is, So a profit-maximizing monopolist always selects an output level for which market demand is own-price elastic.

41 Markup Pricing u Markup pricing: Output price is the marginal cost of production plus a “markup.” u How big is a monopolist’s markup and how does it change with the own-price elasticity of demand?

42 Markup Pricing is the monopolist’s price.

43 Markup Pricing is the monopolist’s price. The markup is

44 Markup Pricing is the monopolist’s price. The markup is E.g. if  = -3 then the markup is k/2, and if  = -2 then the markup is k. The markup rises as the own-price elasticity of demand rises towards -1.

45 A Profits Tax Levied on a Monopoly  A profits tax levied at rate t reduces profit from  (y*) to (1-t)  (y*).  Q: How is after-tax profit, (1-t)  (y*), maximized?

46 A Profits Tax Levied on a Monopoly  A profits tax levied at rate t reduces profit from  (y*) to (1-t)  (y*).  Q: How is after-tax profit, (1-t)  (y*), maximized?  A: By maximizing before-tax profit,  (y*).

47 A Profits Tax Levied on a Monopoly  A profits tax levied at rate t reduces profit from  (y*) to (1-t)  (y*).  Q: How is after-tax profit, (1-t)  (y*), maximized?  A: By maximizing before-tax profit,  (y*). u So a profits tax has no effect on the monopolist’s choices of output level, output price, or demands for inputs. u I.e. the profits tax is a neutral tax.

48 Quantity Tax Levied on a Monopolist u A quantity tax of $t/output unit raises the marginal cost of production by $t. u So the tax reduces the profit- maximizing output level, causes the market price to rise, and input demands to fall. u The quantity tax is distortionary.

49 Quantity Tax Levied on a Monopolist $/output unit y MC(y) p(y) MR(y) y* p(y*)

50 Quantity Tax Levied on a Monopolist $/output unit y MC(y) p(y) MR(y) MC(y) + t t y* p(y*)

51 Quantity Tax Levied on a Monopolist $/output unit y MC(y) p(y) MR(y) MC(y) + t t y* p(y*) ytyt p(y t )

52 Quantity Tax Levied on a Monopolist $/output unit y MC(y) p(y) MR(y) MC(y) + t t y* p(y*) ytyt p(y t ) The quantity tax causes a drop in the output level, a rise in the output’s price and a decline in demand for inputs.

53 Quantity Tax Levied on a Monopolist u Can a monopolist “pass” all of a $t quantity tax to the consumers? u Suppose the marginal cost of production is constant at $k/output unit. u With no tax, the monopolist’s price is

54 Quantity Tax Levied on a Monopolist u The tax increases marginal cost to $(k+t)/output unit, changing the profit-maximizing price to u The amount of the tax paid by buyers is

55 Quantity Tax Levied on a Monopolist is the amount of the tax passed on to buyers. E.g. if  = -2, the amount of the tax passed on is 2t. Because  1 and so the monopolist passes on to consumers more than the tax!

56 The Inefficiency of Monopoly u A market is Pareto efficient if it achieves the maximum possible total gains-to-trade. u Otherwise a market is Pareto inefficient.

57 The Inefficiency of Monopoly $/output unit y MC(y) p(y) yeye p(y e ) The efficient output level y e satisfies p(y) = MC(y).

58 The Inefficiency of Monopoly $/output unit y MC(y) p(y) yeye p(y e ) The efficient output level y e satisfies p(y) = MC(y). CS

59 The Inefficiency of Monopoly $/output unit y MC(y) p(y) yeye p(y e ) The efficient output level y e satisfies p(y) = MC(y). CS PS

60 The Inefficiency of Monopoly $/output unit y MC(y) p(y) yeye p(y e ) The efficient output level y e satisfies p(y) = MC(y). Total gains-to-trade is maximized. CS PS

61 The Inefficiency of Monopoly $/output unit y MC(y) p(y) MR(y) y* p(y*)

62 The Inefficiency of Monopoly $/output unit y MC(y) p(y) MR(y) y* p(y*) CS

63 The Inefficiency of Monopoly $/output unit y MC(y) p(y) MR(y) y* p(y*) CS PS

64 The Inefficiency of Monopoly $/output unit y MC(y) p(y) MR(y) y* p(y*) CS PS

65 The Inefficiency of Monopoly $/output unit y MC(y) p(y) MR(y) y* p(y*) CS PS

66 The Inefficiency of Monopoly $/output unit y MC(y) p(y) MR(y) y* p(y*) CS PS MC(y*+1) < p(y*+1) so both seller and buyer could gain if the (y*+1)th unit of output was produced. Hence the market is Pareto inefficient.

67 The Inefficiency of Monopoly $/output unit y MC(y) p(y) MR(y) y* p(y*) DWL Deadweight loss measures the gains-to-trade not achieved by the market.

68 The Inefficiency of Monopoly $/output unit y MC(y) p(y) MR(y) y* p(y*) yeye p(y e ) DWL The monopolist produces less than the efficient quantity, making the market price exceed the efficient market price.

69 Natural Monopoly u A natural monopoly arises when the firm’s technology has economies-of- scale large enough for it to supply the whole market at a lower average total production cost than is possible with more than one firm in the market.

70 Natural Monopoly y $/output unit ATC(y) MC(y) p(y)

71 Natural Monopoly y $/output unit ATC(y) MC(y) p(y) y* MR(y) p(y*)

72 Entry Deterrence by a Natural Monopoly u A natural monopoly deters entry by threatening predatory pricing against an entrant. u A predatory price is a low price set by the incumbent firm when an entrant appears, causing the entrant’s economic profits to be negative and inducing its exit.

73 Entry Deterrence by a Natural Monopoly u E.g. suppose an entrant initially captures one-quarter of the market, leaving the incumbent firm the other three-quarters.

74 Entry Deterrence by a Natural Monopoly y $/output unit ATC(y) MC(y) DIDI DEDE p(y), total demand = D I + D E

75 Entry Deterrence by a Natural Monopoly y $/output unit ATC(y) MC(y) DIDI DEDE pEpE p(y*) An entrant can undercut the incumbent’s price p(y*) but... p(y), total demand = D I + D E

76 Entry Deterrence by a Natural Monopoly y $/output unit ATC(y) MC(y) p(y), total demand = D I + D E DIDI DEDE pEpE pIpI p(y*) An entrant can undercut the incumbent’s price p(y*) but the incumbent can then lower its price as far as p I, forcing the entrant to exit.

77 Inefficiency of a Natural Monopolist u Like any profit-maximizing monopolist, the natural monopolist causes a deadweight loss.

78 y $/output unit ATC(y) p(y) y* MR(y) p(y*) MC(y) Inefficiency of a Natural Monopoly

79 y $/output unit ATC(y) MC(y) p(y) y* MR(y) p(y*) p(y e ) yeye Profit-max: MR(y) = MC(y) Efficiency: p = MC(y) Inefficiency of a Natural Monopoly

80 y $/output unit ATC(y) MC(y) p(y) y* MR(y) p(y*) p(y e ) yeye Profit-max: MR(y) = MC(y) Efficiency: p = MC(y) DWL Inefficiency of a Natural Monopoly

81 Regulating a Natural Monopoly u Why not command that a natural monopoly produce the efficient amount of output? u Then the deadweight loss will be zero, won’t it?

82 y $/output unit ATC(y) MC(y) p(y) MR(y) p(y e ) yeye Regulating a Natural Monopoly At the efficient output level y e, ATC(y e ) > p(y e ) ATC(y e )

83 y $/output unit ATC(y) MC(y) p(y) MR(y) p(y e ) yeye Regulating a Natural Monopoly At the efficient output level y e, ATC(y e ) > p(y e ) so the firm makes an economic loss. ATC(y e ) Economic loss

84 Regulating a Natural Monopoly u So a natural monopoly cannot be forced to use marginal cost pricing. Doing so makes the firm exit, destroying both the market and any gains-to-trade. u Regulatory schemes can induce the natural monopolist to produce the efficient output level without exiting.

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