Up Down Player 1 in the game above, what is/are the sub-game perfect Nash equilibrium? (up,up) (up,down) (down, up) (down, down) No equilibrium exists Up Down Up Down Player 2 P1 gets $100 P2 gets $100 P1 gets $10 P2 gets $10 P1 gets $15 P2 gets $5 P1 gets $110 P2 gets $10

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**Game Theory Exercise: Sub-game Perfect Nash Equilibrium** This diagram represents a strategic game between two players, Player 1 and Player 2. In this game: - Player 1 has two choices: "Up" or "Down." - If Player 1 chooses "Up," Player 2 then gets to choose between "Up" and "Down." - If Player 1 chooses "Down," Player 2 again gets to choose between "Up" and "Down." The resulting payoffs for Player 1 (P1) and Player 2 (P2) are shown at the end of each branch. The payoffs are denoted in dollar amounts that each player will receive based on the decisions made. Let's break down the game to determine the sub-game perfect Nash equilibrium. **Decision Tree and Payoffs:** 1. If Player 1 chooses "Up": - If Player 2 then chooses "Up": - Player 1 gets $100 - Player 2 gets $100 - If Player 2 then chooses "Down": - Player 1 gets $10 - Player 2 gets $10 2. If Player 1 chooses "Down": - If Player 2 then chooses "Up": - Player 1 gets $15 - Player 2 gets $5 - If Player 2 then chooses "Down": - Player 1 gets $110 - Player 2 gets $10 **Question:** In the game above, what is/are the sub-game perfect Nash equilibrium? - ☐ (up, up) - ☐ (up, down) - ☐ (down, up) - ☑ (down, down) - ☐ No equilibrium exists By analyzing Player 2's decisions in each possible sub-game, the best responses for Player 2 can be determined. Player 2 will choose the action that maximizes their payoff given Player 1's choice. By tracing back these decisions to Player 1's initial choice, we determine that the sub-game perfect Nash equilibrium is (down, down). This means Player 1 will choose "Down," and Player 2 will respond with "Down."