ZuoTi.Pro
Question

2 candidates compete by selecting a location in the interval [0,1]. Whichever location is closer to the median voter wins. The median voter is a random variable drawn from the uniform distribution on [0,1]. In class we assume that the utility to candidate 1 from the location of the winning positin, w is –(0-w)^2, and the utility to candidate 2 from the winning location w is –(1-w)^2

2. Reconsider the model of 2 candidate competition (over school locations) with candidates that face uncertainty about the location of the median voter. In particular both candidates believe the median, m is uniformly distributed on the unit interval (a) First assume that the candidates care only about winning (obtain ing a payoff of 1 from a win, from a tie and 0 from losing). Find the Nash equilibria to this game (b) Now assume that the candidates care about policy and winning So candidate l obtains utility of-r+ γ if she wins and a payoff of -a2 if she does not win. Simmilarly, candidate 2 obtains payoff -(1 - r2)2 y if she wins and payoff (1- if she does not win. The parameter y should be taken as positive but small. Say as much as you can about how best responses and the Nash equlibrium depend on the magnitude of γ

answer both a) AND b) please

business   economics   
0 0
Add a comment Improve this question Transcribed image text
Next > < Previous
Sort answers by oldest

Homework Answers

Answer #1

Ans :- Reconsider the model of 2 candidate competition with candidates that face uncertainty about the location of the median voter. In particular both candidates believe the median, m is uniformly distributed on the unit interval.

Condidcate-1 Cl winelose NE to this (game is (win e ,tose),C Lose, Lose b) Candidate- 1 2 2. Candidate-2 ÷ Let p be he peobabiliy Jhat playe wine s (I-P) In ne peobabiliHy that playe* 2 wine, xpected Payoht , candidate 4 CE.) Bu esponse ^uncHon d candidate t is 2) ot candidate 2. CE Similcel expeded ραγο# 乂2.hcee ose LLoe, winedependen+ the magnitude aț

0 0
Add a comment
Know the answer?
Add Answer to:
2 candidates compete by selecting a location in the interval [0,1]. Whichever location is closer to...
Your Answer:

Post as a guest

Your Name:

What's your source?

Earn Coins

Coins can be redeemed for fabulous gifts.

Log In

Sign Up

Not the answer you're looking for? Ask your own homework help question. Our experts will answer your question WITHIN MINUTES for Free.
Similar Homework Help Questions

  • 2 candidates compete by selecting a location in the interval [0,1]. Whichever location is closer to...

    2 candidates compete by selecting a location in the interval [0,1]. Whichever location is closer to the median voter wins. The median voter is a random variable drawn from the uniform distribution on [0,1]. In class we assume that the utility to candidate 1 from the location of the winning positin, w is –(0-w)^2, and the utility to candidate 2 from the winning location w is –(1-w)^2 2. Reconsider the model of 2 candidate competition (over school locations) with candidates...

  • 2. Reconsider the model of 2 candidate competition (over school locations) with candidates that face uncertainty...

    2. Reconsider the model of 2 candidate competition (over school locations) with candidates that face uncertainty about the location of the median voter. In particular both candidates believe the median, m is uniformly distributed on the unit interval a) First assume that the candidates care only about winning (obtain- ing a payoff of 1 from a win, ^ from a tie and 0 from losing). Find the Nash equilibria to this game. (b) Now assume that the candidates care about...

  • 2. Reconsider the model of 2 candidate competition (over school locations) with candidates that face uncertainty...

    2. Reconsider the model of 2 candidate competition (over school locations) with candidates that face uncertainty about the location of the median voter. In particular both candidates believe the median, m is uniformly (a) First assume that the candidates care only about winning (obtain ing a payoff of 1 from a wifro a tie and 0 from losing). Find the Nash equilibria to this game. b) Now assume that the candidates care about policy and winning So candidate 1 obtains...

  • 4. (Voter Participation): 2 candidates A and B compete in an election. Of the n citizens,...

    4. (Voter Participation): 2 candidates A and B compete in an election. Of the n citizens, k support candidate A and the remaining (n − k) support B. Each citizen chooses whether to abstain, or to vote at a cost. A citizen who abstains receives payoff 2 if the candidate she supports wins, 1 if this candidate ties for 1st place, and 0 if the candidate loses. A citizen who votes receives the same payoffs, minus a voting cost 0...

ADVERTISEMENT
Free Homework Help App
Download From Google Play
Scan Your Homework
to Get Instant Free Answers
Need Online Homework Help?
Ask a Question
Get Answers For Free
Most questions answered within 3 hours.
ADVERTISEMENT
ADVERTISEMENT
ADVERTISEMENT