### 10.1 Two Population Means with Unknown Standard Deviations

Two population means from independent samples where the population standard deviations are not known

- Random variable: ${\overline{X}}_{1}-{\overline{X}}_{2}$ = the difference of the sampling means
- Distribution: Student’s
*t*-distribution with degrees of freedom (variances not pooled)

### 10.2 Two Population Means with Known Standard Deviations

A hypothesis test of two population means from independent samples where the population standard deviations are known (typically approximated with the sample standard deviations) will have these characteristics:

- Random variable: ${\overline{X}}_{1}-{\overline{X}}_{2}$ = the difference of the means
- Distribution: normal distribution

### 10.3 Comparing Two Independent Population Proportions

Test of two population proportions from independent samples

- Random variable: ${\widehat{p}}_{A}\u2013{\widehat{p}}_{B}=$ difference between the two estimated proportions
- Distribution: normal distribution

### 10.4 Matched or Paired Samples (Optional)

A hypothesis test for matched or paired samples (*t*-test) has these characteristics:

- Test the differences by subtracting one measurement from the other measurement.
- Random variable: ${\overline{x}}_{d}$ = mean of the differences.
- Distribution: Student’s
*t*-distribution with*n*– 1 degrees of freedom. - If the number of differences is small (less than 30), the differences must follow a normal distribution.
- Two samples are drawn from the same set of objects.
- Samples are dependent.