Consider a market with inverse demand function given by p(Q) = 60 - 3Q. A single firm - a monopolist - operates in the market, and has cost function given by c₁(Q) = 10+ 40² for Q≥ 0. (a) Write down the profit function for the monopolist, and then maximize the profit function and find the monopolist's optimal output and price. Now suppose a second firm enters the market, with cost function C₂ (Q2) = 55+5Q2 for Q₂ ≥ 0. The first firm still operates in the market with its cost function c₁(Q₁) = 10 + 40₁² for Q₁ ≥ 0, so the market now has a duopoly structure. The inverse demand function is still p(Q) = 60-3Q. Assume that the duopoly engages in Cournot competition (competition in quantities). (b) Find the reaction function (i.e., the best response function) of each duopolist and obtain the output levels that will be produced in a Cournot-Nash equilibrium, as well as the price level in such an equilibrium.
Consider a market with inverse demand function given by p(Q) = 60 - 3Q. A single firm - a monopolist - operates in the market, and has cost function given by c₁(Q) = 10+ 40² for Q≥ 0. (a) Write down the profit function for the monopolist, and then maximize the profit function and find the monopolist's optimal output and price. Now suppose a second firm enters the market, with cost function C₂ (Q2) = 55+5Q2 for Q₂ ≥ 0. The first firm still operates in the market with its cost function c₁(Q₁) = 10 + 40₁² for Q₁ ≥ 0, so the market now has a duopoly structure. The inverse demand function is still p(Q) = 60-3Q. Assume that the duopoly engages in Cournot competition (competition in quantities). (b) Find the reaction function (i.e., the best response function) of each duopolist and obtain the output levels that will be produced in a Cournot-Nash equilibrium, as well as the price level in such an equilibrium.
Chapter14: Monopoly
Section: Chapter Questions
Problem 14.5P
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![6. Consider a market with inverse demand function given by p(Q) = 60 - 3Q. A single
firm - a monopolist - operates in the market, and has cost function given by C₁(Q) =
10+ 40² for Q≥ 0.
(a) Write down the profit function for the monopolist, and then maximize the profit
function and find the monopolist's optimal output and price.
Now suppose a second firm enters the market, with cost function
C₂ (Q₂) = 55+5Q2 for Q₂ ≥ 0.
The first firm still operates in the market with its cost function c₁ (Q₁) = 10 + 40₁² for
Q₁ ≥ 0, so the market now has a duopoly structure. The inverse demand function is still
p(Q) = 60-3Q. Assume that the duopoly engages in Cournot competition (competition
in quantities).
(b) Find the reaction function (i.e., the best response function) of each duopolist and
obtain the output levels that will be produced in a Cournot-Nash equilibrium, as well as
the price level in such an equilibrium.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fd0f30ebe-ccd3-4602-b95e-b2939d8e492f%2Fc4bdc625-85fd-48f0-b903-d2b631f4e172%2Fdhbxhw_processed.jpeg&w=3840&q=75)
Transcribed Image Text:6. Consider a market with inverse demand function given by p(Q) = 60 - 3Q. A single
firm - a monopolist - operates in the market, and has cost function given by C₁(Q) =
10+ 40² for Q≥ 0.
(a) Write down the profit function for the monopolist, and then maximize the profit
function and find the monopolist's optimal output and price.
Now suppose a second firm enters the market, with cost function
C₂ (Q₂) = 55+5Q2 for Q₂ ≥ 0.
The first firm still operates in the market with its cost function c₁ (Q₁) = 10 + 40₁² for
Q₁ ≥ 0, so the market now has a duopoly structure. The inverse demand function is still
p(Q) = 60-3Q. Assume that the duopoly engages in Cournot competition (competition
in quantities).
(b) Find the reaction function (i.e., the best response function) of each duopolist and
obtain the output levels that will be produced in a Cournot-Nash equilibrium, as well as
the price level in such an equilibrium.
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