Which elements determine the width of a 95% confidence interval for a mean when sigma is unknown?

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Multiple Choice

Which elements determine the width of a 95% confidence interval for a mean when sigma is unknown?

Explanation:
When sigma is unknown, the precision of the estimated mean is captured by the standard error and the critical value from a t-distribution. The half-width of the 95% interval is t_(n-1, 0.975) times the standard error, where the standard error is s/√n (s is the sample standard deviation). Therefore the full width depends on s, n, and the t critical value, which itself depends on the degrees of freedom n-1. The mean’s value doesn’t set the width, and the population variance isn’t used directly because sigma is unknown. As n grows, s/√n shrinks and the t critical value approaches the usual z-quantile, so the interval narrows.

When sigma is unknown, the precision of the estimated mean is captured by the standard error and the critical value from a t-distribution. The half-width of the 95% interval is t_(n-1, 0.975) times the standard error, where the standard error is s/√n (s is the sample standard deviation). Therefore the full width depends on s, n, and the t critical value, which itself depends on the degrees of freedom n-1. The mean’s value doesn’t set the width, and the population variance isn’t used directly because sigma is unknown. As n grows, s/√n shrinks and the t critical value approaches the usual z-quantile, so the interval narrows.

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