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When we want to compare the means of two independent groups, we can choose between two different tests:

**Studentâ€™s t-test:Â **Assumes that both groups of data are sampled from populations that follow a normal distribution and that both populations have the same variance.

**Welchâ€™s t-test: **Assumes that both groups of data are sampled from populations that follow a normal distribution, but **it does not assume that those two populations have the same variance**.

So, if the two samples do not have equal variance then itâ€™s best to use the Welchâ€™s t-test.

**But how do we determine if the two samples have equal variance?**

There are two ways to do so:

**1. Use the Variance Rule of Thumb.**

As a rule of thumb, if the ratio of the larger variance to the smaller variance is less than 4 then we can assume the variances are approximately equal and use the Studentâ€™s t-test.

For example, suppose we have the following two samples:

Sample 1 has a variance of 24.86 and sample 2 has a variance of 15.76.

The ratio of the larger sample variance to the smaller sample variance would be calculated as:

Ratio = 24.86 / 15.76 = 1.577

Since this ratio is less than 4, we could assume that the variances between the two groups are approximately equal.

Thus, we could proceed to perform Studentâ€™s t-test to determine if the two groups have the same mean.

**2. Perform an F-test.**

An **F-test** is a formal statistical test that uses the following null and alternative hypotheses:

H_{0}: The samples have equal variances.

H_{A}: The samples do not have equal variances.

The test statistic is calculated as follows:

F = s_{1}^{2} / s_{2}^{2}

where s_{1}^{2 }and s_{2}^{2 }are the sample variances.Â

If the p-value that corresponds to the test statistic is less than some significance level (like 0.05), then we have sufficient evidence to say that the samples do not have equal variances.

Once again suppose we have the following two samples:

To perform an F-test on these two samples, we can calculate the F test statistic as:

- F = s
_{1}^{2}/ s_{2}^{2} - F = 24.86 / 15.76
- F = 1.577

According to the F-Distribution Calculator, an F-value of 1.577 with numerator df = n_{1}-1 = 12 and denominator df = n_{2}-1 = 12 has a corresponding p-value of 0.22079.

Since this p-value is not less than .05, we fail to reject the null hypothesis. In other words, we can assume the sample variances are equal.

Thus, we could proceed to perform Studentâ€™s t-test to determine if the two groups have the same mean.

**Additional Resources**

If you decide to perform the Studentâ€™s t-test, you can use the following tutorials as references:

- Two Sample t-test in Excel
- Two Sample t-test on a TI-84 Calculator
- Two Sample t-test in SPSS
- Two Sample t-Test in Python
- Two Sample t-test Calculator

And if you decide to perform the Welchâ€™s t-test, you can use the following tutorials as references: