Research Methods and Statistics [GATE (Graduate Aptitude Test in Engineering) Psychology]: Questions 201 - 203 of 320

Access detailed explanations (illustrated with images and videos) to 2250 questions. Access all new questions- tracking exam pattern and syllabus. View the complete topic-wise distribution of questions. Unlimited Access, Unlimited Time, on Unlimited Devices!

View Sample Explanation or View Features.

Rs. 600.00 -OR-

How to register? Already Subscribed?

Question 201

Research Methods and Statistics
Cohort Studies

Question

MCQ▾

________ Refers to how participants are allocated to the different conditions (or IV levels) in an experiment.

Choices

Choice (4)Response

a.

Quasi experimental design

b.

Experimental design

c.

Case study

d.

All of the above

Question 202

Research Methods and Statistics
Biserial

Question

Assertion-Reason▾

Assertion(Ꭺ)

Given below are two statements, one labelled as Assertion (A) and other labelled as Reason (R) . Indicate your answer using the code given below:

In point-biserial correlation, in the case of dichotomous variable, there should not be any outliers for the continuous variable for its each category.

Reason(Ꭱ)

There should be equal variance for the continuous variable of each category of the dichotomous variable.

Choices

Choice (4)Response

a.

Both Ꭺ and Ꭱ are true and Ꭱ is the correct explanation of Ꭺ

b.

Both Ꭺ and Ꭱ are true but Ꭱ is NOT the correct explanation of Ꭺ

c.

Both Ꭺ and Ꭱ are false

d.

Ꭺ is true but Ꭱ is false

Question 203

Research Methods and Statistics
Biserial

Question

Assertion-Reason▾

Assertion(Ꭺ)

Given below are two statements, one labelled as Assertion (A) and other labelled as Reason (R) . Indicate your answer using the code given below:

The value of point biserial correlation ranges from to .

Reason(Ꭱ)

A value of denotes no relationship whereas; a value of denotes perfect relationship.

Choices

Choice (4)Response

a.

Both Ꭺ and Ꭱ are true but Ꭱ is NOT the correct explanation of Ꭺ

b.

Ꭺ is false but Ꭱ is true

c.

Both Ꭺ and Ꭱ are false

d.

Both Ꭺ and Ꭱ are true and Ꭱ is the correct explanation of Ꭺ

Developed by: