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Transcript
Chapter 10
Monopoly
10.1
© 2005 Pearson Education Canada Inc.
Monopoly
A
firm is a monopoly if no other firm
produces the same good or a close
substitute for it.
 The degree to which goods are
substitutes is measured by the cross
price elasticity of demand
10.2
© 2005 Pearson Education Canada Inc.
The Monopolist’s Revenue Function
A
monopolist faces a downward sloping
market demand curve.
 To sell additional units the monopolist
must lower its price. p=D(y).
 Since all units must sell for the same
price, p=average revenue (AR).
 Total revenue is output times price:
TR(y)=y(D)
10.3
© 2005 Pearson Education Canada Inc.
The Monopolist’s Revenue Function
 Marginal
revenue MR(y) is the rate at
which total revenue changes with
changes in output.
 Since the monopolist must reduce price
to sell additional units of output, for any
positive output, MR is less than price.
 As Δp approaches zero, MR is equal to (p)
plus quantity (y) multiplied by the slope
of the demand curve.
10.4
© 2005 Pearson Education Canada Inc.
Figure 10.1 The monopolist’s marginal revenue
10.5
© 2005 Pearson Education Canada Inc.
Marginal Revenue and Price
Elasticity of Demand
 Price
elasticity of demand (E) at a
point (y, p) on the demand curve is:
E=p/(y x slope of demand curve)
 Rearranging: MR(y)=p(1-1/lEl)
 Marginal revenue is positive if
demand is price elastic and is
negative of demand is price inelastic.
10.6
© 2005 Pearson Education Canada Inc.
Figure 10.2 A linear demand function and the
associated total and marginal revenue functions
10.7
© 2005 Pearson Education Canada Inc.
From Figure 10.2
 Linear
demand curve: P=a-by
 TR=P*y, Therefore: TR(y)=ay-by2
 MR(y)=a-2by
 The demand curve intersects the
quantity axis at a/b.
 The MR curve intersects the quantity
axis at a/2b.
10.8
© 2005 Pearson Education Canada Inc.
From Figure 10.2
1.
2.
3.
10.9
When TR function has a positive
slope, MR is positive.
When the TR function is at its
maximum, MR is zero.
When TR function has a negative
slope slope, MR is negative.
© 2005 Pearson Education Canada Inc.
Maximizing Profit
 Maximize
profit by choosing output (y*)
where MC intersects MR (from below).
 From the demand curve, find the price
(p*) that corresponds with the profit
maximizing y.
10.10
© 2005 Pearson Education Canada Inc.
Figure 10.3 Maximizing monopoly profit
10.11
© 2005 Pearson Education Canada Inc.
Figure 10.4 The inefficiency of monopoly
10.12
© 2005 Pearson Education Canada Inc.
The Inefficiency of Monopoly
Because p* exceeds MC in equilibrium, some
potential gains from trade are not realized.
 Efficiency requires producing output to the
point where p=MC. The monopoly equilibrium is
not Pareto-optimal.
 A deadweight loss occurs because at
equilibrium there exists unrealized gains from
trade, signalling unrealized monopoly profit.

10.13
© 2005 Pearson Education Canada Inc.
Sources of Monopoly
 Government
Franchise
 Patent Monopoly
 Resource Based Monopoly
 Technological (Natural) Monopoly
 Monopoly by Good Management
10.14
© 2005 Pearson Education Canada Inc.
Figure 10.5 Natural monopoly
10.15
© 2005 Pearson Education Canada Inc.
Regulatory Responses to a
Natural Monopoly
 Average
Cost Pricing: Forcing the
monopoly to produce a level of
output where p=AC.
 This regulation will fail to minimize
production costs.
10.16
© 2005 Pearson Education Canada Inc.
Figure 10.6 Average cost pricing
10.17
© 2005 Pearson Education Canada Inc.
Regulatory Responses to a
Natural Monopoly
 Rate
of Return Regulation: Aimed at
limiting the rate of return on
invested capital.
 Under this regulation, the firm will
choose an input bundle that is not
cost minimizing, choosing too much
capital and too little labour.
10.18
© 2005 Pearson Education Canada Inc.
Figure 10.7 Rate-of-return regulation
10.19
© 2005 Pearson Education Canada Inc.
Patent Policy
 Appropriability
Problem: Many
inventions with social value are not
pursued because inventors do not
have the private incentives to pursue
them (they are not able to capture
the social benefits).
10.20
© 2005 Pearson Education Canada Inc.
Figure 10.8 The inducement to develop
10.21
© 2005 Pearson Education Canada Inc.
Optimal Patent Policy
 At
the optimal patent period, the
marginal social benefit of increasing
the patent period is equal to the
marginal social cost.
10.22
© 2005 Pearson Education Canada Inc.