When the population standard deviation is unknown, which formula is used to form the confidence interval for the mean?

• A. xbar ± t_{n-1,0.975} * s / sqrt(n)
• B. xbar ± z_{0.975} * s / sqrt(n)
• C. xbar ± t_{n,0.975} * s / sqrt(n)
• D. xbar ± t_{n-2,0.975} * s / sqrt(n)

Answer: (A)

When the population standard deviation is unknown, we form the confidence interval for the mean using the t distribution with degrees of freedom equal to n − 1, and we estimate the standard error with the sample standard deviation. The interval is centered at the sample mean and uses s/√n as the standard error, with the appropriate t critical value for a two-sided 95% interval. This gives x-bar ± t_{n−1,0.975} · (s/√n). The reason this is correct is that the t distribution accounts for extra uncertainty from estimating sigma with s, and the degrees of freedom reflect the n observations minus one estimate used. Using a z value would assume sigma is known, and using the wrong degrees of freedom would misstate the spread.