Correlation and Regression

Question 1

Is there a relationship between the amount of time spent revising for an exam and exam performance?

Answer 1

Correlation

Question 2

After controlling for exam anxiety, is there an association between revision time and exam performance?

Answer 2

Correlation

Question 3

When seeing the terms relationships/associations/controlling, what general category of analysis would you choose?

Answer 3

Correlation and regression

Question 4

When would you use a correlation over a regression considering they measure similar things?

Answer 4

Correlation would be used to assess a quick summary of the direction and strength of the relationship between two or more numeric variables

When you’re looking to PREDICT or optimise/explain a number response between the variables (how X influences Y) then you are looking at regression.

Regression = how one variable affects another

Correlation = the degree of relationship between two variables so strength and direction.

Question 5

What does a -1 correlation tell us regarding the association between variables?

Answer 5

There is a perfect negative correlation. Therefore there is an association.

Question 6

What does a +1 correlation tell us regarding the association between variables?

Answer 6

There is a perfect positive correlation.

Question 7

What does a positive correlation mean?

Answer 7

As the FIRST (X) variable increases, the SECOND (Y) variable also increases.

Question 8

What does a negative correlation mean?

Answer 8

As one variable increases, the second one decreases.

Question 9

What do correlations measure?

Answer 9

The pattern of respones across variables

Question 10

As you get cloer to a negative or positive correlation (true 1 or -1) does the association get weaker or stronger?

Answer 10

Stronger

Question 11

What does an association of 0.0 indicate?

Answer 11

The null hypothesis aka no association.

Question 12

How many tails can the alpha be?

Answer 12

Either one tailed or two tailed

Question 13

How is the sample size and alpha/error rate important regarding whether a correlation is statistically significant or not?

Answer 13

Because

Question 14

In a one tailed correlation what is the alpha level?

Answer 14

0.5. Testing an effect in one direction only

Question 15

In a two tailed correlation, the alpha level is 0.25. Why?

Answer 15

Because it is testing the correlation in EITHER direction.

Question 16

Which is more powerful - one tailed or two tailed correlation?

Answer 16

One tailed. More sure about the hypothesis - empirical evidence

Question 17

Why would you use a two tailed correlation?

Answer 17

When uncertain about your hypothesis.

Question 18

Sample size and alpha vale need to be considered when looking at correlation significance. What is true regarding assessing if a pearson R is significant, in terms of NUMBER OF DEGREES OF FREEDOM?

Answer 18

The size of the correlation (regardless of direction) must be MORE THAN the critical value given for that degree of freedom.

Question 19

Would you expect to see a higher Pearson r value for a big n or a small n?

Answer 19

Higher r value for a small n because if few people in a study, a moderate correlation more likely to be due to chance as not many people compared to a desgn with a large sample

Question 20

What does variance tell us?

A. How much scores deviate from the mean of the distribution
B. Variance is the average squared distance from the mean
C. Both

Answer 20

C

It is essentially the measure of how far away the data points are from the mean.

Question 21

Why do we have the square the distance from the average of the distribution when it comes to variance?

Answer 21

Because the data points will be BOTH above and below the mean. If we average those points WITHOUT squaring them, they will cancel each other out (positive distance and negative distance from the mean = same thing, back to original score)

Question 22

So why is the standard deviation (SD) the square root of the variance?

Answer 22

Because you have to square the data points before averaging them. Then SD is just square root after you have squared it first

Question 23

How is the covariance of the two variables similar to the variance?

Answer 23

It tells us how much two variables differ from their means.
So instead of variance telling us how far data points are from mean for one variable, covariance shows how much TWO variables together differ from their means.

Question 24

When dealing with covariance, why is it important to standardise it?

Answer 24

Because the units of measurement can lead to different outcomes with covariance equations.

Question 25

How do we standardise the variables to deal with covariance problems such as measrements leading to different covariance outcomes?

Answer 25

We divide by the standard deviations of both variables. This is the correlation coefficient which is relatively unaffected by units of measurement

Question 26

The standardised version of covariance is known as…?

Answer 26

The correlation coefficient (Pearson)

Question 27

Covariance is unstandardised and correlation is standardised. Why?

Answer 27

Because the problem with covariance is units of measurement, because with raw scores covariance might be different. So you standardise to get around this, and standardising a variable means it is now a correlation .

ADvantageous as Doing this to continuous variables fixes many things. Putting things on the SAME scale when you standardise which makes it easier to compare the two or more variables. You might also hear it called SCALING. It makes your variances equal. Then you’re not looking at COVARIANCE anymore as you have made the variances equal

Question 28

What is covariance of standardised variables essnetially?

Answer 28

A correlation. When you calculate this you get a correlation coefficient.

Question 29

How do we standardise a variable?

Answer 29

By subtracting the mean and dividing by the SD

Question 30

If we already have the co variance of X and Y, what do we need to do to standardise them?

Answer 30

Divide by the SD of X and Y

Question 31

What does dividing the covariance by the SD do in terms of the RANGE of the correlation coefficient?

Answer 31

We force it to be between -1 and +1, about how staright line fits the data. So correlation coefficients can’t be less than or more than +1. BUT, covariance can be anything!

Question 32

True or valse: correlations AND covariance must be between -1 and +1

Answer 32

False - covariance can be anything

Question 33

Why is keeping correlations between -1 and +1 advtangeous?

Answer 33

For comparisons

Question 34

What does a pearson correlation do regarding what it measures with variables?

Answer 34

It measures the DIRECTIOn and DEGREE of linear relationship between two interval/ratio variables. The + or - denoted the direction of the relationship, so whether positive or negative.

Question 35

Can both covariance and correlation tell us about the direction of any linear relationship?

Answer 35

Yes

Question 36

What is the diff between correlation and covariance regarding what it shows with linear relationships?

Answer 36

Correlation shows not only direction of linear relationship but STRENGTH. Covariance can’t.

Question 37

What type of data is required for covariance/correlation?

Answer 37

Continuous (interval or ratio)

Question 38

What is more important when looking at a correlation coefficient: whether the data points fit the line better or if positive/negative association?

Answer 38

If data fits the line better. Because then this tells us there is a strong relatinship, so a change in one variable is associated with a chane in another variable (not about what caused it) .

Question 39

Why would we use a correlation matrix?

Answer 39

Because if we have a dataset with many variables you would have coefficients between each combination of those variables.
Correlation of each pairwise combination of variables in whole dataset.

Question 40

What is a problem for running correlations in exploratory analyses?

Answer 40

The more tests you run you increase chance of getting false positive. Also, people can run these tests not before hypothesis testing and try to come up with a justification

Question 41

Why would a person running a correlation without thinking of research questions need to be careful?

Answer 41

Because justifiying the fact without considering the research is not a correct way of scientific research.

Question 42

True or false: should variables be normally distributed in a pearson correlation?

Answer 42

Yes. For statistical inference

Question 43

If, for a pearson correlation, assumption of normality appears violated

(the sample size is less than 30, variables do not appear to be normally distributed)

what other test can be used?

Answer 43

Spearman correlation

Question 44

How can normality be violated for a pearson correlation?

Answer 44

the sample size is less than 30, variables do not appear to be normally distributed

Question 45

If linearity is violated for a pearson correlation, what would this look like?

Answer 45

Monotonic relationship between variables. Therefore use spearman or try transforming the data

Question 46

What type of test is a pearson correlation?

Answer 46

Parametric. Parametric tests always make assumptions about the distribution of the data being normal. Would always go for a parametric test as have more power.

Question 47

What is the next step of a correlation?

Answer 47

Regression!

Question 48

What is a non parametric correlation?

Answer 48

Spearman

Question 49

What does a spearman correlation measure?

Answer 49

The association between TWO ORDINAL VARIABLES. X and Y both consist of ranks. Specifically, the degree of monotonic relationship between two variables, because assumption of linearity does not need o be met

The consistency of the DIRECTION of the association between two intercal/ratio variables. Therefore, interval.ratio data must be converted to ranks before conducting spearkman correlation.

Question 50

True or false: Spearman correlation coefficient uses sae formula as pearson, only calculations are performed on rank data instead

Answer 50

TRUE

Question 51

The assumption of a spearman correlation is that the data is…

Answer 51

ORDINAL

Question 52

Because the data is ordinal in spearman correlation, how does this suggest test is less powerful than pearson?

Answer 52

Converting data to ordinal means you lose variability and richness of the data.

Question 53

What does it mean for a relationship to be monotonic?

Answer 53

The variables have a monotonic relationship or association which means relationships are consistently one directional, but not neccessarily linear.

Because pearson correlation assume linearity, spearman assumes not that data points perfectly fit a line but that data is either consistently increasing or decreasing

Question 54

Alongside data being ordinal in spearman, what is the assumption regarding the data?

Answer 54

That the data is monotonic.

Question 55

What is a non monotonic relationship between two variables?

Answer 55

As a variable increases, the other increases, but sometimes as variable decreases, the other decreases too (up and down)

Question 56

Part two: shared variance/partial correlations?

Answer 56

What does shared variance mean and why would we want to calculate partial correlations?

Question 57

How can we assess the relationship strength in correlation?

Answer 57

Using the COEFFICIENT OF DETERMINATION (r2)

Which is an effect size

Question 58

What is the R in spearman correlation?

Answer 58

Spearman’s rho

Question 59

How do we calculate the coefficient of determination (an effect size) which assess the relationship strength?

Answer 59

By simply squaring r (the correlation coefficient)

Question 60

the coefficient of determination tell us:

A. the proportion of variabiity in Y that is accounted for by variability in X
B. How accurately one variable predicts another
C. A and B

Answer 60

C

Question 61

In a spearman correlation, the coefficient of determination tells us:

A. the proportion of variance in the RANKS that the two variables share
B. How accurately one variable predicts another
C. A and B

Answer 61

C

Question 62

what is this? r2

Answer 62

the coefficient of determination (calculated by squaring the correlation coeffiicent). effect size

It tells us how strongly the two variables are associated

Question 63

How would we find the proportion of overlapping variance?

Answer 63

BY r2 (coefficient of determination).

Question 64

To find the proportion of overlapping variance amongst variables, and r = .5, how would we work this out?

Answer 64

(.5) 2 (squared)

Question 65

You’re looking at a table, specifically at r squared (2). You have the variables CHEESE and BREAD and can see that the coefficient of determination for these both is .6. What is this saying?

Answer 65

That 6% of the variability in cheese can be explained with variabiity in bread.

Question 66

If a correlation is measuring the degree of overlap between variables, what is shared variance really showing?

Answer 66

How much the VARIANCES of each variable overlap. That is what coefficient of determination is showing us.

Question 67

If there is 6% in variance in the outcome variable accounted for by the predictor variable - does this mean one variable is causing another?

Answer 67

NO. it is about being accounted for, not caused by.

Question 68

If you have three variables (X1, X2, Y) and C shows the variance shared by ALL three variables, to see the UNIQUE associations between, say, x1 and Y, what needs to be removed?

Answer 68

C. Partial correlations investigated

Because need to control for that third variable when looking at association between more than two variables

Question 69

Why would we do partial correlations?

Answer 69

Because it measures the assocations between two variables, controlling for the effect that a third variables has on them both

Question 70

What is a partial correlation

Answer 70

The correlation between two variables when you hold constant the effects of a third variable on both of the other variables

Question 71

If we wanted to examine the unique effect of revision time on exam performance while controlling for the effects of another variable, like exam anxiety, on both revision time and exam performance, what type of correlation would we be looking at?

Answer 71

Partial correlation because it allows us to control for exam anxiety

Question 72

*** What does a SEMI partial correlation do compared to a partial correlation?

Answer 72

Where a partial correlation controls for the effect of a third variable on the correlations between two variables, a semi partial correlation controls for the effect a third variable has on ONE of the others.

Question 73

When is a semi-partial correlation used?

Answer 73

It is used in multiple regression because if you square the semi-partial correlation, it tells you the variability in the outcome uniquely accounted for by one specific predictor variable

Question 74

Which does the below - a partial correlation or a semi partial correlation?
Controls for the relationships between predictors so the outcome variables relationship with other predictors is still taken into account

e.g tells unique effect of revision time on exam performance whilst controlling for effect of exam anxiety on revision time

Answer 74

Semi-partial correlation

Question 75

What happens when we square a semi-partial correlation? especially pertaining to multiple regression

Answer 75

It tells us how much TOTAL variability in Y uniquely accounted for by ONE SPECIFIC PREDICTOR VARIABLE. It controls for the associations between predictor variables.

So it takes into account X1 AND X2 associations in semi partial correlations whilst also giving unique effect for, say, X1 on Y.

Question 76

What are zero order correlations and which analyses would we see them in

Answer 76

Zero order is the correlation between two variables when you DO NOT Control for any other variables.

So we do this in pearson and spearman correlations - just looking at relationship between two variables without controlling for anything.

Question 77

Do partial correlations control for the effects of one or more variables?

Answer 77

Yes.
1st order correlation: partial correlation that controls for first variable
2nd order correlation: partial correlation that controls for TWO variables

Question 78

What is the directionality problem?

Answer 78

The idea it is not possible to determine which variable is the cause and which is the effect. Research supports bidirectional effects across variables.

Therefore correlations with cross sectional data are limited

Question 79

What is the third variable problem?

Answer 79

A relationship established between two variables DOES NOT mean there is a DIRECT relationship as a third variable may be responsible for the relationship

Question 80

If we wanted to test the correlation strength between exam performance and revision time between males and females, what test would we use?

Answer 80

A multiple regression with interactions because we are looking at whether an association between two variables differs by group.

Question 81

True or false: Partial correlations can be performed on non-parametric data

Answer 81

True. Spearman’s partial rank order correlation can be used :)

Question 82

When dealing with missing values in correlations, what does exclude cases pairwise mean?

Answer 82

When for each correlation, we exclude participants who do not have a score for both variables. If there is more than 1 correlation reported, sample size may vary across different correlations

Question 83

When dealing with missing values in correlations, what does exclude cases listwise mean?

Answer 83

Across ALL correlations, exclude participants who do not have a score for every variable. The sample size WILL be the same for all reported correlations.

It is not recommended to do listwise, so just removing partiicpant from entire dataset.

Question 84

What is a regression?

Answer 84

A way of modelling the association or relationship between the variables. We’re looking at modelling the data we have in a linear fashion.

It is a model used to predict the value of one variable from another. It is a linear one

Describing the relationship using the equation of a straight line

Question 85

Which axis does the outcome or DV go on and which axis predictor?

Answer 85

Predictor: X

Outcome/DV: Y

Question 86

What is the equation for describing a straight line or the line of best fit?

Answer 86

Y(i) = b0 + b1X1 + ei

b0 = y intercept. Value of Y when x = 0.

B1 - regression coefficient for the predictor - strength and direction of relationship

e = error term. Difference between ACTUAL (data point) and PREDICTED value of Y for ith person.

Question 87

What do we need to know about a line to predict outcome variable Y?

Answer 87

The intercept, the slope for a predictor variable, and what the error is

Question 88

Why do we want small error terms?

Answer 88

Because smaller error terms mean the difference between actual scores and predicted scores are less, which mean the model is more accurately predicting scores. Less difference between ACTUAL scores and PREDICTED scores.

Question 89

Why do we square residuals?

Answer 89

Because some are above and below the line and if didnt square, would cancel each other out. After squaring, sum to get sum of squares residual.

Question 90

What does the method of least squares do?

Answer 90

It uses calculus to determine the regression line that minimises the sum of square resisuals aka reduces least square residuals

Question 91

True or false: A regression line does not pass through the mean of the predictor and the outcome. Hence when X is equal to its mean, Y is predicted to be equal to the mean of Y

Answer 91

False. A regression line DOES always pass through the mean of the predictor

Question 92

What is the equation of the line of best fit?

Answer 92

Y(i) = b0 + b1X1 + ei

Question 93

In the coefficients table, we have unstandardised score (B), standard error, standardised, etc.

What are we looking at to find out what the modelling is predicting?

Answer 93

The regression coefficient unstandardised (B). No the intercept but the value next to the predictor variable.

The unstandardised value (B) is the slope. If positive, positive slope. And it is saying as X increases by 1 unit change, then the Y would increase by (insert unstandardised variable which is the regression coefficient)

Question 94

Rather than doing the linear equation manually, using statistical software we are looking at the coefficient table for what exactly?

Answer 94

• The direction
• Magnitutde
• Whether a variable is a statistically significant predictor

Question 95

we have unstandardised coefficient (B) and standardised coefficient (beta, little b). What is the difference between the two?

Answer 95

B tells us similar information to b.

However, B is communicating that for ONE UNIT CHANGE in predictor variable X, this will be the change in Y, b is saying:

This is the expected STANDARD DEVIATION change in Y for a 1 SD change in X.

So standardised beta is 1 SD change, and unstandardised B is a 1 unit change.

Question 96

If we wanted to look at the DIRECTION of relationship between variables, would we look at B or beta?

Answer 96

Look at B. Unstandardised. That tells us about the slope.

Unstandardised is looking at unit changes, standardised is looking at SD changes

Question 97

If we wanted to look at the MAGNITUDE/STRENGTH of relationship between variables, would we look at B or beta?

Answer 97

Beta. Standardised tells us about effect sizes.

Unstandardised is looking at unit changes, standardised is looking at SD changes

Question 98

When looking at the coefficients table, what does p

Answer 98

Significance. Signficant predictor.

Specifically, it indicates that our model explains an association between variables in a statistically significant way, meaning the two variables are related more than by chance.