7.10 Carrying Out a Test for the Difference of Two Population Means

    Cards (74)

    • Match the hypothesis type with its null and alternative hypotheses:
      Two-tailed ↔️ μ1 = μ2 vs μ1 ≠ μ2
      One-tailed (Left) ↔️ μ1 = μ2 vs μ1 < μ2
      One-tailed (Right) ↔️ μ1 = μ2 vs μ1 > μ2
    • What theorem is applicable if the population is not normally distributed but the sample size is large enough?
      Central Limit Theorem
    • The pooled variance combines the sample variances to provide a more precise estimate of the common population variance.
      True
    • What is the t-statistic if x̄1 = 50, x̄2 = 45, n1 = 20, n2 = 25, and s_p^2 = 22.25?
      3.53
    • What does the null hypothesis assume when comparing two population means?
      No difference between means
    • Match the hypothesis type with its null and alternative hypotheses:
      Two-tailed ↔️ μ1 = μ2, μ1 ≠ μ2
      One-tailed (Left) ↔️ μ1 = μ2, μ1 < μ2
      One-tailed (Right) ↔️ μ1 = μ2, μ1 > μ2
    • Random sampling is a condition for a valid two-sample t-test
      True
    • What is the purpose of calculating pooled variance?
      Estimate population variance
    • What is the calculated pooled variance if group 1 has n=10 and s^2=25, and group 2 has n=12 and s^2=20?
      22.25
    • What is pooled variance used for in statistical analysis?
      Estimating population variance
    • What is the first assumption that must be checked for a two-sample t-test?
      Random samples or assignment
    • The pooled variance is used to estimate the population variance when comparing two independent groups and assuming their variances are equal
    • What does the t-statistic measure in a two-sample t-test?
      Difference between sample means
    • When testing if the average math scores of two different schools are equal, the null hypothesis is μ1 = μ2.
      True
    • What does the null hypothesis assume when comparing two population means?
      No difference between means
    • For the normality assumption, either the populations are normal or the sample sizes are large enough to apply the Central Limit Theorem.

      True
    • What is the formula for calculating pooled variance?
      s_p^2 = \frac{(n_1 - 1)s_1^2 + (n_2 - 1)s_2^2}{n_1 + n_2 - 2}</latex>
    • Arrange the variables used in the t-statistic formula with their descriptions:
      1️⃣ x̄1: Mean of group 1
      2️⃣ x̄2: Mean of group 2
      3️⃣ s_p^2: Pooled variance
      4️⃣ n1: Sample size of group 1
      5️⃣ n2: Sample size of group 2
    • The t-statistic is approximately 3.53
    • In a one-tailed left test, the alternative hypothesis is μ1 > μ2
      False
    • To test if the average math scores of one school are higher than another, the alternative hypothesis is μ1 > μ2
    • Independence of samples means measurements from one group influence the other
      False
    • The pooled variance combines variances from both groups to provide a more precise estimate

      True
    • The t-statistic measures the difference between two sample means relative to variability within each sample

      True
    • Pooled variance combines sample variances to provide a more precise estimate of the common population variance.

      True
    • The degrees of freedom for a two-sample t-test are calculated as: n1 + n2 - 2
    • Steps to find the critical t-value in a t-table for a two-tailed test:
      1️⃣ Find the row corresponding to the degrees of freedom.
      2️⃣ Locate the column corresponding to α/2.
      3️⃣ The critical t-value is at the intersection of the row and column.
    • In a two-tailed test, the alternative hypothesis is: μ1 ≠ μ2
    • One assumption of the two-sample t-test is that the samples must be random
    • The Central Limit Theorem allows for reliable estimation of means when sample sizes are large
    • The formula for calculating pooled variance is: s_p^2
    • The t-statistic measures the difference between two sample means
    • The degrees of freedom for a two-sample t-test are calculated using the formula: n1 + n2 - 2
    • What two values are needed to find the critical t-value?
      Degrees of freedom and α
    • To find the critical t-value, you need to know the degrees of freedom and the alpha level.

      True
    • The critical t-value is the value that the t-statistic must exceed to reject the null hypothesis.

      True
    • What happens if the t-statistic is less than the critical t-value?
      Fail to reject H0
    • If the p-value is less than the significance level, we reject the null hypothesis.
    • To state the conclusion of a hypothesis test in context, you must summarize the main findings and relate them to the original research question.
    • In a two-tailed test, the alternative hypothesis is μ1 ≠ μ2