Statistical Significance and p-Values Explained Intuitively

Data Demystified

22 Oct 202008:56

Summary

TLDRIn 'Date Demystified,' Jeff Gallick explores the concept of statistical significance in scientific studies. He explains that we can't prove theories as true but can provide evidence against them, using the null hypothesis as a starting point. Gallick clarifies that a 'statistically significant result' means there's enough evidence to reject the null hypothesis, often at a p-value less than 0.05. This threshold is arbitrary but serves as a convention in scientific communication. He suggests that while statistical significance testing is useful, other methods like confidence intervals and Bayesian estimates might offer a more robust approach.

Takeaways

🔍 Statistical significance in science is about providing evidence against a hypothesis, rather than proving it true.
🌐 The concept of 'always' is difficult to prove in science, as it requires testing under every possible condition across all time.
📉 A null hypothesis is a default assumption of no effect or no difference, which is rejected if there's sufficient evidence to the contrary.
🎯 The term 'statistically significant' is used when the analysis result is unlikely to have occurred by chance alone, often with a p-value less than 0.05.
🧐 P-values represent the probability of observing the test results, given that the null hypothesis is true.
✂️ A p-value less than 0.05 suggests that the observed results are sufficiently unlikely under the null hypothesis to reject it.
📊 The choice of 0.05 as a threshold for statistical significance is arbitrary and based on historical convention rather than an absolute rule.
🔄 The process of statistical significance testing involves comparing observed results to a threshold to determine if the null hypothesis can be rejected.
📈 Repeated experiments that consistently show an effect can build confidence in rejecting the null hypothesis, even if absolute certainty is unattainable.
🤔 Some argue that statistical significance testing should be replaced with other methods like confidence intervals, Bayesian estimates, or effect sizes for a more nuanced understanding of evidence.

Q & A

What is the main focus of the video 'Date Demystified'?
-The main focus of the video 'Date Demystified' is to equip viewers with the information needed to thrive in a data-rich world, specifically by explaining the concept of statistical significance in scientific studies.
What does the term 'statistically significant' typically refer to in scientific studies?
-In scientific studies, 'statistically significant' typically refers to a result where the probability (p-value) is less than 0.05, indicating that the findings are unlikely to have occurred by chance.
Why can't we prove something to be true in the scientific world according to the video?
-In the scientific world, we can't prove something to be true because to show that something always happens, you would need to observe it under every possible condition across all of time, which is impossible.
What is the null hypothesis in the context of statistical significance testing?
-The null hypothesis is the default assumption of no effect or no difference. It is the hypothesis that we assume to be true until evidence is presented to show it is not, similar to the legal concept of 'innocent until proven guilty'.
How does the video explain the concept of p-values?
-The video explains p-values as a measure of evidence against the null hypothesis. A smaller p-value indicates stronger evidence to reject the null hypothesis, while a larger p-value suggests the observed results could easily occur by chance if the null hypothesis were true.
What is the significance of a p-value less than 0.05 in statistical tests?
-A p-value less than 0.05 indicates that the results are unlikely to have occurred by chance if the null hypothesis were true, providing enough evidence to reject the null hypothesis and claim statistical significance.
Why is the threshold for statistical significance set at 0.05?
-The threshold for statistical significance at 0.05 is arbitrary and was established by convention, likely by the statistician Ronald Fisher in the early 20th century. It is not based on a specific rationale but serves as a standard for many scientific disciplines.
What are some alternatives to statistical significance testing mentioned in the video?
-The video suggests alternatives to statistical significance testing such as confidence intervals, Bayesian estimates, and effect sizes, which some argue should replace the traditional p-value approach.
How does the video illustrate the concept of rejecting the null hypothesis?
-The video uses the example of a ball falling to the ground to illustrate rejecting the null hypothesis. If the null hypothesis is that a dropped ball never falls, and it is observed to fall, this provides evidence against the null hypothesis.
What is the practical implication of rejecting the null hypothesis in a drug trial as discussed in the video?
-In a drug trial, if the null hypothesis that the drug is not effective is rejected due to statistically significant results, it implies that there is enough evidence to suggest the drug is effective, which could lead to its prescription in practice.