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Econ 384 Intermediate Microeconomics II. Lorne Priemaza, M.A. Lorne.priemaza@ualberta.ca Various material courtesy of Wiley & Sons INC. Chapter 13. 13.1 Market Structure 13.2 Homogeneous Oligopoly 13.3 Dominant Firm Markets 13.4 Oligopoly with Horizontally Differentiated Products
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Econ 384Intermediate Microeconomics II Lorne Priemaza, M.A. Lorne.priemaza@ualberta.ca Various material courtesy of Wiley & Sons INC.
Chapter 13 13.1 Market Structure 13.2 Homogeneous Oligopoly 13.3 Dominant Firm Markets 13.4 Oligopoly with Horizontally Differentiated Products 13.5 Monopolistic Competition Appendix
13.1 Market Structure Market structure depends upon two spectrums: • Number of firms in market • Product Differentiation Definition:Product Differentiation between two or more products exists when the products possess attributes that, in the minds of consumers, set the products apart from one another and make them less than perfect substitutes. Examples: Pepsi is sweeter than Coke, Brand Name batteries last longer than "generic" batteries.
13.1 Market Structure Number of Sellers
13.1 Market Structure • Perfect Competition • Many Firms • Homogeneous Products examples: Lemonade stands, fries B) Monopolistic Competition • Many Firms • Differentiated Products Examples: dry cleaning, socks, burgers
13.1 Market Structure C) Homogeneous Products Oligopoly • Few Firms • Homogeneous Products Examples: Convenience Store, Apples D) Differentiated Products Oligopoly • Few Firms • Differentiated Products Examples: Cola, Breakfast Cereals
13.1 Market Structure E) Dominant Firm • One Large Firm, many small firms • Homogeneous Products Examples: Ketchup, MP3 Players F) Monopoly • One Firm • One Product Examples: Canadian Uranium, Canadian Health Insurance (government monopoly)
13.1 Measuring Market Structure 1) Four-firm Concentration Ratio (4CR) -Sum of the top 4 sales revenue (in percentage terms) in an industry ie1) Internet: Shaw (50%) and Telus (50%) 4CR = 50%+50%=100% ie2) French Fries: New York (10%), McDonalds (7%), Wendy’s (4%), Red Robin (3%) 4CR = 10%+7%+4%+3%=24% *Note: Values are assumptions
13.1 Measuring Market Structure 2) Herfindahl-Hirschman Index (HHI) -∑(Market Share)2 ie1) Monopoly: HHI=1002=10,000 ie2) 100 Identical Firms: HHI=100(1)2=100 -HHI ranges from 0 (infinite firms) to 10,000 (one firm) *Note that the textbook calculations are inconsistent for HHI
13.1 Measuring Market Structure -TYPICALLY: -Industries closer to perfect competition or monopolistic competition have low 4CR’s and HHI’s -Oligopolies have intermediate 4CR’s and HHI’s -Industries closer to monopolies and dominant firms have high 4CR’s and HHI’s -This is a GENERALIZATION (there are deviations)
13.2 Homogeneous Oligopoly In perfect competition, each firm can ignore all other firms. Oligopoly markets feature COMPETITIVE INDERDEPENDENCE – firm A’s decisions affect the profits of other firms. ex) if Firm A overproduces, price falls and Firm B’s profits decrease How does this close interdependence affect firm behavior?
Cournot Oligopoly • Assumptions • Firms set outputs (quantities)* • Homogeneous Products • Simultaneous • Non-cooperative • *Definition: In a Cournot game, each firm sets its output (quantity) taking as given the output level of its competitor(s), so as to maximize profits. • Price adjusts according to demand. Chapter Thirteen
Simultaneously vs. Non-cooperatively Definition: Firms act simultaneously if each firm makes its strategic decision at the same time, without prior observation of the other firm's decision. Definition: Firms act non-cooperatively if they set strategy independently, without colluding with the other firm in any way Chapter Thirteen
Residual Demand Definition: The relationship between the price charged by firm i and the demand firm i faces is firm is residual demand In other words, the residual demand of firm i is the market demand minus the amount of demand fulfilled by other firms in the market: Q1 = Q – Q2; firms are QUANTITY TAKERS (v. price takers in Perfect Competition) Note: We will initially assume only 2 firms, a DUOPOLY Chapter Thirteen
Residual Demand Price Residual Marginal Revenue when q2 = 10 10 units Residual Demand when q2 = 10 MC Demand 0 Quantity q1* Best response to q2 = 10
Best Response/Reaction Function Best Response- The point where (residual) marginal revenue equals marginal cost gives ONE best response of firm i to its rival's action. Reaction Function- The graph of all possible best responses to rival actions Chapter Thirteen
Reaction Functions q2 Reaction Function of Firm 1 • q2* Reaction Function of Firm 2 0 q1 q1* Chapter Thirteen
Cournot Equilibrium Equilibrium: No firm has an incentive to deviate in equilibrium; each firm is maximizing profits given its rival's output Each Firm’s output is a BEST RESPONSE to each other firm’s output. Chapter Thirteen
Cournot Equilibrium Example P = 100 - Q1 - Q2 MC = AC = 10 What is firm 1's profit-maximizing output when firm 2 produces 50? Residual demand: P = (100 - Q1) – 50 = 50 - Q1 TR=PQ= 50Q1 - Q12 MR50 = ∂TR/ ∂Q1 = 50 - 2Q1 Since profit is maximized when MR=MC, MR50 = MC 50 - 2Q1 = 10 40 = 2Q 20 = Q Chapter Thirteen
Cournot Equilibrium Example • P = 100 - Q1 - Q2 MC = AC = 10 • What is the equation of firm 1's reaction function? • Residual demand: P = (100 - Q2) - Q1 • TR= PQ1 = 100Q1 - Q2 Q1 - Q12 • MRr = ∂TR/ ∂Q1 =100 - Q2 - 2Q1 • MRr = MC 100 - Q2 - 2Q1 = 10 • Q1r = 45 - Q2/2 firm 1's reaction function • Similarly, Q2r = 45 - Q1/2
Cournot Equilibrium Example P = 100 - Q1 - Q2 MC = AC = 10 Q1r = 45 - Q2/2 Q2r = 45 - Q1/2 Calculate the Cournot equilibrium. Q1 = 45 - Q2/2 Q1 = 45 - (45 - Q1/2)/2 Q1* = 30 Q2* = 30 P = 100 - Q1 - Q2 = 100 - 30 - 30 = 40 1* = 2* = TR – TC = (P-MC)Q* 1* = 2* = (40-10)(30) = 900 Chapter Thirteen
Cournot Solving Steps • Calculate Residual Demand • Calculate (residual) MR • MR=MC to find reaction functions • Use reaction functions to solve for Q’s • Use Q’s to solve for P • -Remember that Q1+Q2=QM • Solve for • Summarize Chapter Thirteen
How do firms achieve Cournot Equilibria? q2 • Each firm can calculate Reaction Functions 2) Firm 2 will never produce over A 3) Knowing this, Firm 1 will never produce under B 4) Knowing this, Firm 2 will never produce over C 5) This reasoning continues until point Z A • C Z q2* Reaction Function of Firm 2 0 q1 q1* B Chapter Thirteen
Cournot vs. Monopoly vs. PC • Since Pcournot> MC, Cournot prices are higher than perfect competition prices • Cournot firms have market power • BUT, a Cournot market produces more than a Monopoly, and at a lower price. • Each firm’s pursuit of individual self-interest does not typically maximize the industry’s profits. • Each firm wishes the other would decrease quantity • Monopoly profits are possible if firms collude (which is illegal)
PC vs. Cournot vs. Monopoly Consider the following outcomes using our above example of P=100-Q: The outcome changes greatly with number of firms.
Cournot Equilibrium, Many Firms P = a-bQMC = c N identical firms Find Cournot Equilibrium Quantity Residual demand P = a-b(Q1 + Qother) TR = PQ = aQ1-bQ12 – bQotherQ1 MR = ∂TR/ ∂Q = a-2bQ1 – bQother Since profit is maximized when MR=MC, MR = MC a-2bQ1 – bQother = c Q1=(a-c)/2b – (1/2)Qother Since Qother = (N-1) Q1, Q1=(a-c)/2b – (1/2)[(N-1)Q1] Since Q1=Q*
Cournot Equilibrium, Many Firms P = a-bQMC = c N identical firms Find Cournot Equilibrium Market Price Since there are N firms,
Cournot Solving Steps Multi-Firm • Calculate Residual Demand • Calculate (residual) MR • MR=MC to find reaction functions • New 3b) Remember that Qother = (N-1) Q1 • 4) Use reaction functions to solve for Q’s • 5) Use Q to solve for P • -Remember that ∑Qi=QM • 6) Solve for • 7) Summarize Chapter Thirteen
Outcome comparisons Given the relationship P=a-bQ and MC=c, Chapter Thirteen
13.2 Bertrand Oligopoly (Homogeneous Products) Cournot Oligopoly –Firms compete on QUANTITY Bertrand Oligopoly –Firms compete on PRICES -Goods must be homogeneous/identical -A firm’s residual demand depends on the other firm’s price: • Zero demand at prices higher than the other firm • Market demand at prices lower than the other firm
Bertrand Oligopoly (homogeneous) • Assumptions: • Firms set price* • Homogeneous product • Simultaneous • Non-cooperative *Definition: In a Bertrand oligopoly, each firm sets its price, taking as given the price(s) set by other firm(s), so as to maximize profits.
Residual Demand Curve – Price Setting Price Market Demand Firm 1’s Residual Demand Curve • P2 Quantity 0 Chapter Thirteen
13.2 Bertrand Oligopoly (Homogeneous Products) • Firm A must undercut firm B’s price to sell anything • This will force firm B to undercut Firm A ... • This will continue until neither firm can decrease price further, P=MC • The Perfect Competition Result!
Bertrand Equilibrium Example P = 100 - QT MC = AC = 10 What is the Bertrand Equilibrium? P = MC=10 P = 100 – QT 10 = 100 – QT 90 = QT ∏=TR-TC ∏=(P-MC)Q ∏=(10-10)90 = 0
Bertrand vs. Cournot Cournot – Long-Run Competition (Firms choose output capacity) Bertrand – Short-Run Competition (Firms have excess output) ------------------------------------------------------------------ Cournot – Firms can quickly adjust their price, so price competition is useless Bertrand – Firms can only slowly adjust price, so firms believe a price cut can temporarily increase profits
Stackelberg Oligopoly Stackelberg model of oligopoly is a situation in which one firm acts as a quantity leader, choosing its quantity first, with all other firms acting as followers. Call the first mover the “leader” and the second mover the “follower”. The second firm is in the same situation as a Cournot firm: it takes the leader’s output as given and maximizes profits accordingly, using its residual demand. The second firm’s behavior can, then, be summarized by a Cournot reaction function.
Stackelberg Leader Choice The Stackelberg leader knows the follower’s reaction function, and can use that to choose its production: P = 100 - QL - QF MC = AC = 10 What is the equation of the follower’s reaction function? Residual demand: P = (100 - QL) - QF TR= PQF = 100QF - QF QL - QF2 MRFr = ∂TR/ ∂Q1 =100 - QL - 2QF MRFr = MC 100 - QL - 2QF = 10 QFr = 45 - QL/2 follower’s reaction function
Stackelberg Leader Choice P = 100 - QL - QF MC = AC = 10 QFr = 45 - QL/2 Calculate the Stackelberg equilibrium. P = 100 - QL - QF = 100 - QL – (45 - QL/2) P = 55 – QL/2TR= PQL = 55QL – QL2/2 MRL = ∂TR/ ∂QL = 55 – QL MRL = MC 55 – QL = 10 QL = 45 Chapter Thirteen
Stackelberg Leader Choice P = 100 - QL - QF MC = AC = 10 QFr = 45 - QL/2 QL = 45 Continue Calculating the Stackelberg equilibrium. QFr = 45 - QL/2 = 45 - 45/2 QFr = 22.5 P = 100 - QL - QF = 100 - 45 – 22.5 = 32.5 L* = TR – TC = (P-MC)QL* = (32.5-10)45 = 1,012.5 F* = TR – TC = (P-MC)QF* = (32.5-10)22.5 = 506.25 Chapter Thirteen
Stackelberg Leader Choice With a Stackelberg leader, price is $32.50, with the leader producing 45 units for a profit of $1,012.50 and the following producing 22.5 units for a profit of $506.25. • Notice that: • Price is lower than the Cournot equilibrium • Leader profits are higher than the cournot equilibrium • Follower profits are lower than the Cournot equilibrium • There is an advantage to moving first
Stackelberg Solving Steps • Calculate Leader’s Residual Demand • Calculate Leaders (residual) MR • Leader’s MR=MC to find QL • Use QL to solve for QF • Use Q’s to solve for P • -Remember that QL+QF=QM • Solve for ’s • Summarize Chapter Thirteen
13.3 Dominant Firm Model The dominant firm model features: • A single company with an overwhelming market share (a dominant firm), D • many small producers (competitive fringe), each of whom has a small market share, F The dominant firm faces market demand, and residual demand that takes into account the competitive fringe’s supply:
Dominant Firm The dominant firm’s residual demand (DR) is market demand minus competitive fringe supply (in terms of Q)
Dominant Firm Example P = 100 - QTSF: P =10+QF or QF =P - 10 MCD = AC = 10 What is the equation of the Dominant Firm’s Residual Demand? QR = QT – QF QR = 100-P – (P-10) QR = 110-2P P = 55-QR/2
Dominant Firm Example P = 100 - QT SF: P =10+QF or QF =P - 10 MCD = AC = 10 QR = 90-2P (P = 55-QR/2) Calculate Dominant Firm Quantities and Price TRDR = PQD = 55QD-QD2/2 MRL = ∂TR/ ∂QL = 55 – QD MRL = MC 55 – QD = 10 QD = 45 P = 55-QR/2 P = 55-45/2 = 32.5
Dominant Firm Example P = 100 - QT SF: P =10+QF or QF =P - 10 MCD = AC = 10 QR = 90-2P (P = 55-QR/2) Calculate and check Competitive Fringe Quantities SF: P =10+QF 32.5 = 10+QF QF = 22.5 QT = QD + QF QT = 45 + 22.5 = 67.5 P = 100 – QT 32.5 = 100 – 67.5 = 32.5
Dominant Firm Example P = 100 - QT SF: P =10+QF or QF =P - 10 MCD = AC = 10 QR = 90-2P (P = 55-QR/2) QF = 22.5, QD = 45, P=32.5 Calculate market share and dominant firm profit D: Market Share = QD/ QT = 45/67.5*100 = 66.6% F: Market Share = QD/ QT = 22.5/67.5*100 = 33.3% D* = TR – TC = (P-MC)QD* = (32.5-10)45 = 1,012.5 • At a price of $32.50, the dominant firm produces 45 units for a profit of $1,012.50, and fringe firms produce 22.5 total.
Dominant Firm Solving Steps • Calculate Dominant Firm`s Residual Demand • Calculate Dominant Firm`s (residual) MR • Leader’s MR=MC to find QD • Use QD to solve for P • Use P to solve for QF • -Remember that QD+QF=QM • Solve for and Market Share • Summarize Chapter Thirteen
Aside: Calculating SF • Recall: • A competitive firm’s supply comes from its MC curve • Identical firms supply can be summed (through q) Fringe Firm: MC=5+20q, 40 firms Calculate Fringe Supply MC=5+20q q=(P-5)/20 QF=40(P-5)/20 QF=2P-10