Reference no: EM13924437

Answer the following questions about correlation (r).

What is the strongest the correlation can ever be?  _____

If there is no relationship, r is equal to __________.

The correlation coefficient ranges from ________ to _______.

If the points fall in an almost perfect, negative linear pattern, r is close to:  _____

If the points fall in an almost perfect, positive linear pattern, r is close to:  _____

2. Relationship between Height and Weight.

Data has been collected on 225 STAT 200 students.

Weight is measured in pounds and Height in inches. Below are some descriptive statistics of Weight and Height.

Then a linear regression was performed on height and weight. The output looks as follows:

Write the regression equation based on the output.

What is the response variable (dependent variable) and what is the predictor (independent variable)?

Based on the equation, what is the slope?

Please explain slope as the change in Y per unit change in X in the context of the variables used in this problem.

Based on the output, what is the test of the slope for this regression equation? 

That is, provide the null and alternative hypotheses, the test statistic, p-value of the test, and state your decision and conclusion.

Assume a student is 65 inch tall. 

Is it possible to predict his weight based on this analysis?

If so, please estimate his weight using the regression equation.

What do the Fitted (predicted) values and Residuals represent?

For example, there is one record in the data set with height = 54 and weight = 110.

Please use these numbers to explain what is the fitted value and what is the residual.

3. Relationship between eighth grade IQ and ninth grade math score.

For a statistics class project, students examined the relationship between x = 8^th grade IQ and y = 9^th grade math scores for 20 students.

The data are displayed below.

Open the dataset IQ found in the Datasets folder in ANGEL.

Create a scatter plot of the measurements by selecting Math Score for the y-axis (response) and IQ for the x-axis (predictor). 

Describe the relationship between math score and IQ.

Minitab Express: Graphs > Scatterplot > Simple.

Perform a linear regression with the Response (dependent variable) math score and the variable IQ as the Predictor (independent variable). 

Click on the Graphs tab, and check the box for Residual plots. You'll use these plots in the next part.

What is the regression equation?

What is the interpretation of R-square (just use the latest output) and how to calculate correlation based on it?

One of the students with a high IQ (number 17) appears to be an outlier.  With a sample size of only 20 this can affect our normality assumption. 

Also, the constant variance assumption could be compromised. 

We can visually check for constant variance using a Versus Fits Plot and test for normality using a Normal Probability Plot (or Q-Q plot).

These plots were created during your analysis if you checked the box for residual plots.

Based on these two graphs and what you have learned about hypothesis testing, what interpretations do you come to regarding the assumptions of constant variance and normality?

What is the regression equation with the rest of the data?

What is the R² and correlation between Math Score and IQ with the outlier removed?

How does the fit of the regression line of the original data (i.e. with outlier) compare (visually and statistically) to the fit of the regression line to the data with the outlier removed? 

Compare the fit of the regression line between the two sets of data. 

Pay particular attention to the differences in R², the slope and how the line fits each set of data. 

You may want to repeat the residual plot and probability plot!