Interpretaton of confidence interval. I have read two books that explicitly state that the (1-alpha)% confidence interval should be interpreted as: If you construct 100 such confidence intervals, alpha of them are expected to not contain the true population statistic and (1-alpha) of them are expected to contain the true population statistic.

mangicele4s

mangicele4s

Answered question

2022-09-20

Interpretaton of confidence interval
I have read two books that explicitly state that the ( 1 α )% confidence interval should be interpreted as:
If you construct 100 such confidence intervals, α of them are expected to not contain the true population statistic and ( 1 α ) of them are expected to contain the true population statistic.
and not as
There is a ( 1 α ) probability that the true population statistic is contained in the confidence interval.
In my view, they both equivalent: If you make the first statement, you implicitly make the second statement. You are looking at any one arbitrary confidence interval, which in itself is a random variable, the generic confidence interval should, therefore, be subject to the second statement. Do things change when this random variable is actually realized?

Answer & Explanation

Triston Donaldson

Triston Donaldson

Beginner2022-09-21Added 10 answers

Step 1
I think confidence intervals are better understood in the following way. There is an infinite set of constant open intervals. Some of them cover the population statistic θ and some of them don't.
Step 2
Now the (random) confidence interval is just a mechanism to draw an interval from this set. So the ( 1 α ) % is the chance of picking a constant interval that covers θ. But whatever interval is drawn (or realized), since each of these interval is constant, the probability that it contains θ can only be 0 or 1.
batejavizb

batejavizb

Beginner2022-09-22Added 4 answers

Step 1
(as background context a 95% confidence interval of the number of voters voting for a particular party was found to be [36%,44%]):
Step 2
For example, in the poll example outlined in the introduction, to be 95% confident that the actual number of voters intending to vote for the party in question is between 36% to 44%, should not be interpreted in the common-sense interpretation that there is a 95% probability that the actual number of voters intending to vote for the party in question is between 36% to 44%. This would be technically incorrect. The actual meaning of confidence levels and confidence intervals is rather more subtle. In the above case, a correct interpretation would be as follows: If the polling were repeated a large number of times (you could produce a 95% confidence interval for your polling confidence interval), each time generating about a 95% confidence interval from the poll sample, then approximately 95% of the generated intervals would contain the true percentage of voters who intend to vote for the given party. Each time the polling is repeated, a different confidence interval is produced; hence, it is not possible to make absolute statements about probabilities for any one given interval.

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