Problem 1: Asking Embarrassing Questions, Politely When doing polling, for instance to figure out how popular a given candidate is, a common trick is to just ask N many people whether they support that candidate, and take the support to be the faction of people who say yes: if 70 people support the candidate out of 100 asked, we estimate the support at 70% or 0.7. Suppose that the probability a person supports a candidate is p, which you do not know. Let PN be the fraction of N people polled who support the candidate: total supporters divided by N people polled. 1) What is the distribution of N * Pn? 2) Show hat the expected value of pN is p, i.e., pN is a valid estimator for p. If you want your estimated value of p to be accurate, you want your 'error' on pN to be small. 3) How many people N should you poll to guarantee the erpected squared error on pN is less than e? 4) How many people N should you poll to guarantee the expected squared error on pN is less than e, even if you don't know p? In the previous to problems, we considered the average or expected squared error. But just because the expected error is small doesn't mean the actual error is small. 5) How many people N should you poll to guarantee the actual error on PN is less than e with 95% confidence, even if you don't know p?
Problem 1: Asking Embarrassing Questions, Politely When doing polling, for instance to figure out how popular a given candidate is, a common trick is to just ask N many people whether they support that candidate, and take the support to be the faction of people who say yes: if 70 people support the candidate out of 100 asked, we estimate the support at 70% or 0.7. Suppose that the probability a person supports a candidate is p, which you do not know. Let PN be the fraction of N people polled who support the candidate: total supporters divided by N people polled. 1) What is the distribution of N * Pn? 2) Show hat the expected value of pN is p, i.e., pN is a valid estimator for p. If you want your estimated value of p to be accurate, you want your 'error' on pN to be small. 3) How many people N should you poll to guarantee the erpected squared error on pN is less than e? 4) How many people N should you poll to guarantee the expected squared error on pN is less than e, even if you don't know p? In the previous to problems, we considered the average or expected squared error. But just because the expected error is small doesn't mean the actual error is small. 5) How many people N should you poll to guarantee the actual error on PN is less than e with 95% confidence, even if you don't know p?
MATLAB: An Introduction with Applications
6th Edition
ISBN:9781119256830
Author:Amos Gilat
Publisher:Amos Gilat
Chapter1: Starting With Matlab
Section: Chapter Questions
Problem 1P
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