A A B A:-1,B:-1 A:5,B:0 B A:2,B:2 A:10,B:1 equilibrium solution for the following payoff matrix is....

1. For the following payoff matrix, find these: a) Nash equilibrium or Nash equilibria (if any)...

1. For the following payoff matrix, find these: a) Nash equilibrium or Nash equilibria (if any) b) Maximin equilibrium c) Collusive equilibrium (also known as the "cooperative equilibrium") d) Maximax equilibrium e) Dominant strategy of each firm (if any)            Firm A            Strategy X     Strategy Y Firm B Strategy X                200 23            250 20 Strategy Y                  30 50              1 500 2. For the following payoff matrix, find these: a) Nash equilibrium or Nash equilibria...

Matrix A= -2 1 0 2 -3 4 5 -6 7 vector u= 1 2 1...

Matrix A= -2 1 0 2 -3 4 5 -6 7 vector u= 1 2 1 a) Is the vector u in Null(A) Explain in detail why b) Is the vectro u in Col( A) Explain in detail why

1. For the following payoff matrix, find these: a) Nash equilibrium or Nash equilibria (if any)...

1. For the following payoff matrix, find these: a) Nash equilibrium or Nash equilibria (if any) b) Maximin equilibrium c) Collusive equilibrium (also known as the "cooperative equilibrium") d) Maximax equilibrium e) Dominant strategy of each firm (if any) Firm A Strategy X Strategy Y Firm B Strategy X 200 23 250 20 Strategy Y 30 50 1 500

Perform the following matrix multiplications A = [2   5   6]       [-3 0   1] B =...

Perform the following matrix multiplications A = [2   5   6]       [-3 0   1] B = [ 1]        [ 3]        [-4] C = [-2   10   1] 6a. Find AB 6b. Find BC 6c. Find AC

A) Find the inverse of the following square matrix. I 5 0 I I 0 10...

A) Find the inverse of the following square matrix. I 5 0 I I 0 10 I (b) Find the inverse of the following square matrix. I 4 9 I I 2 5 I c) Find the determinant of the following square matrix. I 5 0 0 I I 0 10 0 I I 0 0 4 I (d) Is the square matrix in (c) invertible? Why or why not?

(a) Find the inverse of the following square matrix. I 5 0 I I 0 10...

(a) Find the inverse of the following square matrix. I 5 0 I I 0 10 I (b) Find the inverse of the following square matrix. I 4 9 I I 2 5 I (c) Find the determinant of the following square matrix. I 5 0 0 I I 0 10 0 I I 0 0 4 I (d) Is the square matrix in (c) invertible? Why or why not?

Use the following payoff matrix for a one-shot game to answer the accompanying questions. Player 2...

Use the following payoff matrix for a one-shot game to answer the accompanying questions. Player 2 Strategy X Y Player 1 A 5, 5 0, -200 B -200, 0 20, 20 a. Determine the Nash equilibrium outcomes that arise if the players make decisions independently, simultaneously, and without any communication. Instructions: You may select more than one answer. Click the box with a check mark for the correct answers and click twice to empty the box for the wrong answers....

1. Can you define Nash Equilibrium and identify equilibria on a payoff matrix? And identify the...

1. Can you define Nash Equilibrium and identify equilibria on a payoff matrix? And identify the irony of the classic prisoner’s dilemma? And spot the mistake in A Beautiful Mind with respect to the bar scene shown in class?

19. Use the payoff matrix to answer the following question. Player 2 Strategy A B Player...

19. Use the payoff matrix to answer the following question. Player 2 Strategy A B Player 1 X 53, 58 58, 43 Y 48, 62 50, 55 What is the dominant strategy of player 1?   Group of answer choices A Y X B 20. Sometimes a local utility provider charges different customers different amounts per unit based on the amount of the service used. This is an example of _______ price discrimination. Group of answer choices second degree first degree...

Fill in a payoff matrix for a prisoner’s dilemma game where one player has a dominant...

Fill in a payoff matrix for a prisoner’s dilemma game where one player has a dominant strategy and the other doesn’t. Firm 2 in Duopoly Firm 1 in Duopoly a. Explain the dominant and non-dominant strategy of the firms. b. Is there a Nash equilibrium in your game? Explain.