5 Must Know Facts For Your Next Test

1. Test statistics can follow different distributions such as the normal distribution, t-distribution, or chi-squared distribution, depending on the context and type of hypothesis test being conducted.
2. Common types of test statistics include z-scores for large samples and t-scores for small samples when assessing means.
3. The value of the test statistic helps determine whether to reject or fail to reject the null hypothesis based on its relation to the critical value.
4. In constructing confidence intervals, test statistics are used to identify how far the sample statistic deviates from what is expected under the null hypothesis.
5. A significant test statistic generally indicates that there is strong evidence against the null hypothesis, which in turn suggests that a corresponding confidence interval may not contain the parameter specified in that hypothesis.

Review Questions

• How does a test statistic help in making decisions regarding the null hypothesis?
  • A test statistic provides a numerical representation of how far a sample statistic deviates from what is expected under the null hypothesis. By calculating this value and comparing it to a critical value, one can determine whether there is enough evidence to reject the null hypothesis. The further away the test statistic is from zero, particularly if it exceeds the critical value, suggests stronger evidence against the null hypothesis.
• Discuss how confidence intervals relate to test statistics and their importance in hypothesis testing.
  • Confidence intervals and test statistics are closely linked in hypothesis testing because both rely on sample data to make inferences about population parameters. A test statistic indicates whether a sample mean significantly differs from a hypothesized population mean, while confidence intervals provide a range of values within which we expect that true population parameter to lie. If a hypothesized value falls outside of this confidence interval, it may lead to rejecting the null hypothesis based on evidence reflected in the test statistic.
• Evaluate how changes in sample size affect the calculation and interpretation of test statistics in hypothesis testing.
  • As sample size increases, the standard error decreases, resulting in larger absolute values for test statistics when other factors remain constant. This shift can lead to more statistically significant results, allowing researchers to detect smaller effects with greater confidence. Therefore, larger samples can enhance power, making it easier to reject a false null hypothesis, while also influencing how confidence intervals are constructed and interpreted within hypothesis testing frameworks.

© 2024 Fiveable Inc. All rights reserved.

AP® and SAT® are trademarks registered by the College Board, which is not affiliated with, and does not endorse this website.