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Hypothesis Testing with Z-Test,Significance Level and Rejection Region,rejection region table,rejection region calculator,critical value,critical region,hypothesis testing calculator,hypothesis testing critical value,how to calculate rejection region,how to find critical value in hypothesis testing,

Hypothesis Testing with Z-Test: Significance Level and Rejection Region

If you want to understand why hypothesis testing works, you should first have an idea about the significance level and the reject region. We assume you already know what a hypothesis is, so let’s jump right into the action.

What Is the Significance Level?

First, we must define the term significance level. Normally, we aim to reject the null if it is false.
Significance level
However, as with any test, there is a small chance that we could get it wrong and reject a null hypothesis that is true.
Error, significance level

How Is the Significance Level Denoted?

The significance level is denoted by α and is the probability of rejecting the null hypothesis, if it is true.
α and is the probability of rejecting the null hypothesis, significance level
So, the probability of making this error. Typical values for α are 0.01, 0.05 and 0.1. It is a value that we select based on the certainty we need. In most cases, the choice of α is determined by the context we are operating in, but 0.05 is the most commonly used value.
Most common, significance level

A Case in Point

Say, we need to test if a machine is working properly. We would expect the test to make little or no mistakes. As we want to be very precise, we should pick a low significance level such as 0.01. The famous Coca Cola glass bottle is 12 ounces. If the machine pours 12.1 ounces, some of the liquid would be spilled, and the label would be damaged as well. So, in certain situations, we need to be as accurate as possible.
Significance level: Coca Cola example

Higher Degree of Error

However, if we are analyzing humans or companies, we would expect more random or at least uncertain behavior. Hence, a higher degree of error.
You expect more random behavior, significance level
For instance, if we want to predict how much Coca Cola its consumers drink on average, the difference between 12 ounces and 12.1 ounces will not be that crucial. So, we can choose a higher significance level like 0.05 or 0.1.
The difference between 12 and 12.1, significance level

Hypothesis Testing: Performing a Z-Test

Now that we have an idea about the significance level, let’s get to the mechanics of hypothesis testing. Imagine you are consulting a university and want to carry out an analysis on how students are performing on average.
How students are performing on average, significance-level
The university dean believes that on average students have a GPA of 70%. Being the data-driven researcher that you are, you can’t simply agree with his opinion, so you start testing. The null hypothesis is: The population mean grade is 70%. This is a hypothesized value. The alternative hypothesis is: The population mean grade is not 70%. You can see how both of them are denoted, below.
University Dean example: Null hypothesis equals the population mean

Visualizing the Grades

Assuming that the population of grades is normally distributed, all grades received by students should look in the following way.
Distribution of grades, significance level
That is the true population mean.

Performing a Z-test

Now, a test we would normally perform is the Z-test. The formula is: Z equals the sample mean, minus the hypothesized mean, divided by the standard error.
Z equals the sample mean, minus the hypothesized mean, divided by the standard error, significance level
The idea is the following. We are standardizing or scaling the sample mean we got. If the sample mean is close enough to the hypothesized mean, then Z will be close to 0. Otherwise, it will be far away from it. Naturally, if the sample mean is exactly equal to the hypothesized meanZ will be 0.
If the sample mean is exactly equal to the hypothesized mean, Z will be 0, significance level
In all these cases, we would accept the null hypothesis.

What Is the Rejection Region?

The question here is the following: How big should Z be for us to reject the null hypothesis? Well, there is a cut-off line. Since we are conducting a two-sided or a two-tailed test, there are two cut-off lines, one on each side.
Distribution of Z (standard normal distribution), significance level
When we calculate Z, we will get a value. If this value falls into the middle part, then we cannot reject the null. If it falls outside, in the shaded region, then we reject the null hypothesis. That is why the shaded part is called: rejection region, as you can see below.
Rejection region, significance level

What Does the Rejection Region Depend on?

The area that is cut-off actually depends on the significance level. Say the level of significanceα, is 0.05. Then we have α divided by 2, or 0.025 on the left side and 0.025 on the right side.
The level of significance, α, is 0.05. Then we have α divided by 2, or 0.025 on the left side and 0.025 on the right side
Now these are values we can check from the z-table. When α is 0.025, Z is 1.96. So, 1.96 on the right side and minus 1.96 on the left side. Therefore, if the value we get for Z from the test is lower than minus 1.96, or higher than 1.96, we will reject the null hypothesis. Otherwise, we will accept it.
One-sided test: Z score is 1.96
That’s more or less how hypothesis testing works. We scale the sample mean with respect to the hypothesized value. If Z is close to 0, then we cannot reject the null. If it is far away from 0, then we reject the null hypothesis.
How does hypothesis testing work?

Example of One Tailed Test

What about one-sided tests? We have those too! Let’s consider the following situation. Paul says data scientists earn more than $125,000. So, H0 is: μ0 is bigger than $125,000. The alternative is that μ0 is lower or equal to 125,000. Using the same significance level, this time, the whole rejection region is on the left. So, the rejection region has an area of α. Looking at the z-table, that corresponds to a Z-score of 1.645. Since it is on the left, it is with a minus sign.
One-sided test: Z score is 1.645

Accept or Reject

Now, when calculating our test statistic Z, if we get a value lower than -1.645, we would reject the null hypothesis. We do that because we have statistical evidence that the data scientist salary is less than $125,000. Otherwise, we would accept it.
One-sided test: Z score is - 1.645 - rejecting null hypothesis

Another One-Tailed Test

To exhaust all possibilities, let’s explore another one-tailed test. Say the university dean told you that the average GPA students get is lower than 70%. In that case, the null hypothesis is: μ0 is lower than 70%. While the alternative is: μ0` is bigger or equal to 70%.
University Dean example: Null hypothesis lower than the population mean
In this situation, the rejection region is on the right side. So, if the test statistic is bigger than the cut-off z-score, we would reject the null, otherwise, we wouldn’t.
One-sided test: test statistic is bigger than the cut-off z-score - reject the null hypothesis

Importance of the Significance Level and the Rejection Region

To sum up, the significance level and the reject region are quite crucial in the process of hypothesis testing. The level of significance conducts the accuracy of prediction. We (the researchers) choose it depending on how big of a difference a possible error could make. On the other hand, the reject region helps us decide whether or not to reject the null hypothesis. After reading this and putting both of them into use, you will realize how convenient they make your work. The article first appeared on: https://365datascience.com/significance-level-reject-region/

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