Monopolistic Competition and Oligopoly - PowerPoint PPT Presentation

1 / 93
About This Presentation
Title:

Monopolistic Competition and Oligopoly

Description:

WE can use firm 2 s reaction curve as Q2 First Mover Advantage The Stackelberg Model Using Firm 2 s Reaction Curve for Q2: First Mover Advantage ... – PowerPoint PPT presentation

Number of Views:172
Avg rating:3.0/5.0
Slides: 94
Provided by: MarieTr
Category:

less

Transcript and Presenter's Notes

Title: Monopolistic Competition and Oligopoly


1
Chapter 12
  • Monopolistic Competition and Oligopoly

2
Topics to be Discussed
  • Monopolistic Competition
  • Oligopoly
  • Price Competition
  • Competition Versus Collusion The Prisoners
    Dilemma
  • Implications of the Prisoners Dilemma for
    Oligopolistic Pricing
  • Cartels

3
Monopolistic Competition
  • Characteristics
  • Many firms
  • Free entry and exit
  • Differentiated product

4
Monopolistic Competition
  • The amount of monopoly power depends on the
    degree of differentiation.
  • Examples of this very common market structure
    include
  • Toothpaste
  • Soap
  • Cold remedies

5
Monopolistic Competition
  • Toothpaste
  • Crest and monopoly power
  • Procter Gamble is the sole producer of Crest
  • Consumers can have a preference for Crest
    taste, reputation, decay preventing efficacy
  • The greater the preference (differentiation) the
    higher the price.

6
Monopolistic Competition
  • Two important characteristics
  • Differentiated but highly substitutable products
  • Free entry and exit

7
A Monopolistically CompetitiveFirm in the Short
and Long Run
/Q
/Q
Short Run
Long Run
Quantity
Quantity
8
A Monopolistically CompetitiveFirm in the Short
and Long Run
  • Short-run
  • Downward sloping demand differentiated product
  • Demand is relatively elastic good substitutes
  • MR lt P
  • Profits are maximized when MR MC
  • This firm is making economic profits

9
A Monopolistically CompetitiveFirm in the Short
and Long Run
  • Long-run
  • Profits will attract new firms to the industry
    (no barriers to entry)
  • The old firms demand will decrease to DLR
  • Firms output and price will fall
  • Industry output will rise
  • No economic profit (P AC)
  • P gt MC ? some monopoly power

10
Monopolistically and Perfectly Competitive
Equilibrium (LR)
Monopolistic Competition
Perfect Competition
/Q
/Q
Quantity
Quantity
11
Monopolistic Competition Economic Efficiency
  • The monopoly power yields a higher price than
    perfect competition. If price was lowered to the
    point where MC D, consumer surplus would
    increase by the yellow triangle deadweight
    loss.
  • With no economic profits in the long run, the
    firm is still not producing at minimum AC and
    excess capacity exists.

12
Monopolistic Competition and Economic Efficiency
  • Firm faces downward sloping demand so zero profit
    point is to the left of minimum average cost
  • Excess capacity is inefficient because average
    cost would be lower with fewer firms
  • Inefficiencies would make consumers worse off

13
Monopolistic Competition
  • If inefficiency bad for consumers, should
    monopolistic competition be regulated?
  • Market power relatively small. Usually enough
    firms to compete with enough substitutability
    between firms deadweight loss small
  • Inefficiency is balanced by benefit of increased
    product diversity may easily outweigh
    deadweight loss

14
The Market for Colas and Coffee
  • Each market has much differentiation in products
    and try to gain consumers through that
    differentiation
  • Coke versus Pepsi
  • Maxwell House versus Folgers
  • How much monopoly power do each of these
    producers have?
  • How elastic demand for each brand?

15
Elasticities of Demand forBrands of Colas and
Coffee
16
The Market for Colas and Coffee
  • The demand for Royal Crown more price inelastic
    than for Coke
  • There is significant monopoly power in these two
    markets
  • The greater the elasticity, the less monopoly
    power and vice versa.

17
Oligopoly Characteristics
  • Small number of firms
  • Product differentiation may or may not exist
  • Barriers to entry
  • Scale economies
  • Patents
  • Technology
  • Name recognition
  • Strategic action

18
Oligopoly
  • Examples
  • Automobiles
  • Steel
  • Aluminum
  • Petrochemicals
  • Electrical equipment

19
Oligopoly
  • Management Challenges
  • Strategic actions to deter entry
  • Threaten to decrease price against new
    competitors by keeping excess capacity
  • Rival behavior
  • Because only a few firms, each must consider how
    its actions will affect its rivals and in turn
    how their rivals will react.

20
Oligopoly Equilibrium
  • If one firm decides to cut their price, they must
    consider what the other firms in the industry
    will do
  • Could cut price some, the same amount, or more
    than firm
  • Could lead to price war and drastic fall in
    profits for all
  • Actions and reactions are dynamic, evolving over
    time

21
Oligopoly Equilibrium
  • Defining Equilibrium
  • Firms are doing the best they can and have no
    incentive to change their output or price
  • All firms assume competitors are taking rival
    decisions into account.
  • Nash Equilibrium
  • Each firm is doing the best it can given what its
    competitors are doing.
  • We will focus on duopoly
  • Markets in which two firms compete

22
Oligopoly
  • The Cournot Model
  • Oligopoly model in which firms produce a
    homogeneous good, each firm treats the output of
    its competitors as fixed, and all firms decide
    simultaneously how much to produce
  • Firm will adjust its output based on what it
    thinks the other firm will produce

23
Firm 1s Output Decision
P1
Q1
24
Oligopoly
  • The Reaction Curve
  • The relationship between a firms
    profit-maximizing output and the amount it thinks
    its competitor will produce.
  • A firms profit-maximizing output is a decreasing
    schedule of the expected output of Firm 2.

25
Reaction Curves and Cournot Equilibrium
Q1
Firm 1s reaction curve shows how much it will
produce as a function of how much it thinks Firm
2 will produce. The xs correspond to the
previous model.
100
75
Firm 2s reaction curve shows how much it will
produce as a function of how much it thinks Firm
1 will produce.
50
x
x
25
x
x
Q2
25
50
75
100
26
Reaction Curves and Cournot Equilibrium
Q1
100
In Cournot equilibrium, each firm correctly
assumes how much its competitors will produce and
thereby maximize its own profits.
75
50
x
x
25
x
x
Q2
25
50
75
100
27
Cournot Equilibrium
  • Each firms reaction curve tells it how much to
    produce given the output of its competitor.
  • Equilibrium in the Cournot model, in which each
    firm correctly assumes how much its competitor
    will produce and sets its own production level
    accordingly.

28
Oligopoly
  • Cournot equilibrium is an example of a Nash
    equilibrium (Cournot-Nash Equilibrium)
  • The Cournot equilibrium says nothing about the
    dynamics of the adjustment process
  • Since both firms adjust their output, neither
    output would be fixed

29
The Linear Demand Curve
  • An Example of the Cournot Equilibrium
  • Two firms face linear market demand curve
  • We can compare competitive equilibrium and the
    equilibrium resulting from collusion
  • Market demand is P 30 - Q
  • Q is total production of both firms
  • Q Q1 Q2
  • Both firms have MC1 MC2 0

30
Oligopoly Example
  • Firm 1s Reaction Curve ? MRMC

31
Oligopoly Example
  • An Example of the Cournot Equilibrium

32
Oligopoly Example
  • An Example of the Cournot Equilibrium

33
Duopoly Example
Q1
The demand curve is P 30 - Q and both firms
have 0 marginal cost.
Q2
34
Oligopoly Example
  • Profit Maximization with Collusion

35
Profit Maximization w/Collusion
  • Contract Curve
  • Q1 Q2 15
  • Shows all pairs of output Q1 and Q2 that
    maximizes total profits
  • Q1 Q2 7.5
  • Less output and higher profits than the Cournot
    equilibrium

36
Duopoly Example
Q1
For the firm, collusion is the best outcome
followed by the Cournot Equilibrium and then the
competitive equilibrium
30
Q2
30
37
First Mover Advantage The Stackelberg Model
  • Oligopoly model in which one firm sets its output
    before other firms do.
  • Assumptions
  • One firm can set output first
  • MC 0
  • Market demand is P 30 - Q where Q is total
    output
  • Firm 1 sets output first and Firm 2 then makes an
    output decision seeing Firm 1 output

38
First Mover Advantage The Stackelberg Model
  • Firm 1
  • Must consider the reaction of Firm 2
  • Firm 2
  • Takes Firm 1s output as fixed and therefore
    determines output with the Cournot reaction
    curve Q2 15 - ½(Q1)

39
First Mover Advantage The Stackelberg Model
  • Firm 1
  • Choose Q1 so that
  • Firm 1 knows firm 2 will choose output based on
    its reaction curve. WE can use firm 2s reaction
    curve as Q2

40
First Mover Advantage The Stackelberg Model
  • Using Firm 2s Reaction Curve for Q2

41
First Mover Advantage The Stackelberg Model
  • Conclusion
  • Going first gives firm 1 the advantage
  • Firm 1s output is twice as large as firm 2s
  • Firm 1s profit is twice as large as firm 2s
  • Going first allows firm 1 to produce a large
    quantity. Firm 2 must take that into account and
    produce less unless wants to reduce profits for
    everyone

42
Price Competition
  • Competition in an oligopolistic industry may
    occur with price instead of output.
  • The Bertrand Model is used
  • Oligopoly model in which firms produce a
    homogeneous good, each firm treats the price of
    its competitors as fixed, and all firms decide
    simultaneously what price to charge

43
Price Competition Bertrand Model
  • Assumptions
  • Homogenous good
  • Market demand is P 30 - Q where
    Q Q1 Q2
  • MC1 MC2 3
  • Can show the Cournot equilibrium if Q1 Q2 9
    and market price is 12 giving each firm a
    profits of 81.

44
Price Competition Bertrand Model
  • Assume here that the firms compete with price,
    not quantity.
  • Since good is homogeneous, consumers will buy
    from lowest price seller
  • If firms charge different prices, consumers buy
    from lowest priced firm only
  • If firms charge same price, consumers are
    indifferent who they buy from

45
Price Competition Bertrand Model
  • Nash equilibrium is competitive output since have
    incentive to cut prices
  • Both firms set price equal to MC
  • P MC P1 P2 3
  • Q 27 Q1 Q2 13.5
  • Both firms earn zero profit

46
Price Competition Bertrand Model
  • Why not charge a different price?
  • If charge more, sell nothing
  • If charge less, lose money on each unit sold
  • The Bertrand model demonstrates the importance of
    the strategic variable
  • Price versus output

47
Bertrand Model Criticisms
  • When firms produce a homogenous good, it is more
    natural to compete by setting quantities rather
    than prices.
  • Even if the firms do set prices and choose the
    same price, what share of total sales will go to
    each one?
  • It may not be equally divided.

48
Price Competition Differentiated Products
  • Market shares are now determined not just by
    prices, but by differences in the design,
    performance, and durability of each firms
    product.
  • In these markets, more likely to compete using
    price instead of quantity

49
Price Competition Differentiated Products
  • Example
  • Duopoly with fixed costs of 20 but zero variable
    costs
  • Firms face the same demand curves
  • Firm 1s demand Q1 12 - 2P1 P2
  • Firm 2s demand Q2 12 - 2P1 P1
  • Quantity that each firm can sell decreases when
    it raises its own price but increases when its
    competitor charges a higher price

50
Price Competition Differentiated Products
  • Firms set prices at the same time

51
Price Competition Differentiated Products
  • If P2 is fixed

52
Nash Equilibrium in Prices
  • What if both firms collude
  • They both decide to charge the same price that
    maximized both of their profits
  • Firms will charge 6 and will be better off
    colluding since they will earn a profit of 16

53
Nash Equilibrium in Prices
P1
Equilibrium at price of 4 and profits of 12
P2
54
Nash Equilibrium in Prices
  • If Firm 1 sets price first and then firm 2 makes
    pricing decision
  • Firm 1 would be at a distinct disadvantage by
    moving first
  • The firm that moves second has an opportunity to
    undercut slightly and capture a larger market
    share

55
A Pricing Problem Procter Gamble
  • Procter Gamble, Kao Soap, Ltd., and Unilever,
    Ltd were entering the market for Gypsy Moth
    Tape.
  • All three would be choosing their prices at the
    same time.
  • Each firm was using same technology so had same
    production costs
  • FC 480,000/month VC 1/unit

56
A Pricing Problem Procter Gamble
  • Procter Gamble had to consider competitors
    prices when setting their price.
  • PGs demand curve was
  • Q 3,375P-3.5(PU).25(PK).25
  • Where P, PU, PK are PGs, Unilevers, and Kaos
    prices respectively

57
A Pricing Problem Procter Gamble
  • What price should PG choose and what is the
    expected profit?
  • Can calculate profits by taking different
    possibilities of prices you and the other
    companies could charge.
  • Nash equilibrium is at 1.40 the point where
    competitors are doing the best they can as well

58
PGs Profit (in thousands of per month)
59
A Pricing Problem for Procter Gamble
  • Collusion with competitors will give larger
    profits.
  • If all agree to charge 1.50, each earn profit of
    20,000
  • Collusions agreement hard to enforce

60
Competition Versus CollusionThe Prisoners
Dilemma
  • Nash equilibrium is a noncooperative equilibrium
    each firm makes decision that gives greatest
    profit, given actions of competitors
  • Although collusion is illegal, why dont firms
    cooperate without explicitly colluding?
  • Why not set profit maximizing collusion price and
    hope others follow?

61
Competition Versus CollusionThe Prisoners
Dilemma
  • Competitor is not likely to follow
  • Competitor can do better by choosing a lower
    price, even if they know you will set the
    collusive level price.
  • We can use example from before to better
    understand the firms choices

62
Competition Versus CollusionThe Prisoners
Dilemma
  • Assume

63
Competition Versus CollusionThe Prisoners
Dilemma
  • Possible Pricing Outcomes

64
Payoff Matrix for Pricing Game
Firm 2
Charge 4
Charge 6
Charge 4
Firm 1
Charge 6
65
Competition Versus CollusionThe Prisoners
Dilemma
  • We can now answer the question of why firm does
    not choose cooperative price.
  • Cooperating means both firms charging 6 instead
    of 4 and earning 16 instead of 12
  • Each firm always makes more money by charging 4,
    no matter what its competitor does
  • Unless enforceable agreement to charge 6, will
    be better off charging 4

66
Competition Versus CollusionThe Prisoners
Dilemma
  • An example in game theory, called the Prisoners
    Dilemma, illustrates the problem oligopolistic
    firms face.
  • Two prisoners have been accused of collaborating
    in a crime.
  • They are in separate jail cells and cannot
    communicate.
  • Each has been asked to confess to the crime.

67
Payoff Matrix for Prisoners Dilemma
Prisoner B
Confess
Dont confess
Confess
Prisoner A
Would you choose to confess?
Dont confess
68
Oligopolistic Markets
  • Conclusions
  • Collusion will lead to greater profits
  • Explicit and implicit collusion is possible
  • Once collusion exists, the profit motive to break
    and lower price is significant

69
Payoff Matrix for the PG Pricing Problem
Unilever and Kao
Charge 1.40
Charge 1.50
Charge 1.40
PG
What price should P G choose?
Charge 1.50
70
Observations of Oligopoly Behavior
  1. In some oligopoly markets, pricing behavior in
    time can create a predictable pricing environment
    and implied collusion may occur.
  2. In other oligopoly markets, the firms are very
    aggressive and collusion is not possible.

71
Observations of Oligopoly Behavior
  • In other oligopoly markets, the firms are very
    aggressive and collusion is not possible.
  • Firms are reluctant to change price because of
    the likely response of their competitors.
  • In this case prices tend to be relatively rigid.

72
Price Rigidity
  • Firms have strong desire for stability
  • Price rigidity characteristic of oligopolistic
    markets by which firms are reluctant to change
    prices even if costs or demands change
  • Fear lower prices will send wrong message to
    competitors leading to price war
  • Higher prices may cause competitors to raise
    theirs

73
Price Rigidity
  • Basis of kinked demand curve model of oligopoly
  • Each firm faces a demand curve kinked at the
    currently prevailing price, P
  • Above P, demand is very elastic
  • If PgtP, other firms will not follow
  • Below P, demand is very inelastic
  • If PltP, other firms will follow suit

74
Price Rigidity
  • With a kinked demand curve, marginal revenue
    curve is discontinuous
  • Firms costs can change without resulting in a
    change in price
  • Kinked demand curve does not really explain
    oligopolistic pricing
  • Description of price rigidity rather than an
    explanation of it

75
The Kinked Demand Curve
/Q
Quantity
76
The Kinked Demand Curve
/Q
Quantity
MR
77
Price Signaling and Price Leadership
  • Price Signaling
  • Implicit collusion in which a firm announces a
    price increase in the hope that other firms will
    follow suit
  • Price Leadership
  • Pattern of pricing in which one firm regularly
    announces price changes that other firms then
    match

78
Price Signaling and Price Leadership
  • The Dominant Firm Model
  • In some oligopolistic markets, one large firm has
    a major share of total sales, and a group of
    smaller firms supplies the remainder of the
    market.
  • The large firm might then act as the dominant
    firm, setting a price that maximizes its own
    profits.

79
The Dominant Firm Model
  • Dominant firm must determine its demand curve,
    DD.
  • Difference between market demand and supply of
    fringe firms
  • To maximize profits, dominant firm produces QD
    where MRD and MCD cross.
  • At P, fringe firms sell QF and total quantity
    sold is QT QD QF

80
Price Setting by a Dominant Firm
Price
Quantity
81
Cartels
  • Producers in a cartel explicitly agree to
    cooperate in setting prices and output.
  • Typically only a subset of producers are part of
    the cartel and others benefit from the choices of
    the cartel
  • If demand is sufficiently inelastic and cartel is
    enforceable, prices may be well above competitive
    levels

82
Cartels
  • Examples of successful cartels
  • OPEC
  • International Bauxite Association
  • Mercurio Europeo
  • Examples of unsuccessful cartels
  • Copper
  • Tin
  • Coffee
  • Tea
  • Cocoa

83
Cartels Conditions for Success
  • Stable cartel organization must be formed price
    and quantity settled on and adhered to
  • Members have different costs, assessments of
    demand and objectives
  • Tempting to cheat by lowering price to capture
    larger market share

84
Cartels Conditions for Success
  • Potential for monopoly power
  • Even if cartel can succeed, there might be little
    room to raise price if faces highly elastic
    demand
  • If potential gains from cooperation are large,
    cartel members will have more incentive to make
    the cartel work

85
Analysis of Cartel Pricing
  • Members of cartel must take into account the
    actions of non-members when making pricing
    decisions
  • Cartel pricing can be analyzed using the dominant
    firm model
  • OPEC oil cartel successful
  • CIPEC copper cartel unsuccessful

86
The OPEC Oil Cartel
Price
Quantity
87
Cartels
  • About OPEC
  • Very low MC
  • TD is inelastic
  • Non-OPEC supply is inelastic
  • DOPEC is relatively inelastic

88
The OPEC Oil Cartel
Price
P
QOPEC
Quantity
89
The CIPEC Copper Cartel
Price
Quantity
90
Cartels
  • To be successful
  • Total demand must not be very price elastic
  • Either the cartel must control nearly all of the
    worlds supply or the supply of noncartel
    producers must not be price elastic

91
The Cartelization of Intercollegiate Athletics
  1. Large number of firms (colleges)
  2. Large number of consumers (fans)
  3. Very high profits

92
The Cartelization of Intercollegiate Athletics
  • NCAA is the cartel
  • Restricts competition
  • Reduces bargaining power by athletes enforces
    rules regarding eligibility and terms of
    compensation
  • Reduces competition by universities limits
    number of games played each season, number of
    teams per division, etc.
  • Limits price competition sole negotiator for
    all football television contracts

93
The Cartelization of Intercollegiate Athletics
  • Although members have occasionally broken rules
    and regulations, has been a successful cartel
  • In 1984, Supreme Court ruled that the NCAAs
    monopolization of football TV contracts was
    illegal
  • Competition led to drop in contract fees
  • More college football on TV, but lower revenues
    to schools
Write a Comment
User Comments (0)
About PowerShow.com