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Test: Moment Of A Couple - Mechanical Engineering MCQ


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15 Questions MCQ Test - Test: Moment Of A Couple

Test: Moment Of A Couple for Mechanical Engineering 2024 is part of Mechanical Engineering preparation. The Test: Moment Of A Couple questions and answers have been prepared according to the Mechanical Engineering exam syllabus.The Test: Moment Of A Couple MCQs are made for Mechanical Engineering 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises, MCQs and online tests for Test: Moment Of A Couple below.
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Test: Moment Of A Couple - Question 1

Couple is having a combination of two forces. They are different in magnitude.

Detailed Solution for Test: Moment Of A Couple - Question 1

The couple is a combination of two forces of same magnitude. They are acting in the same sense of rotation. That is they are acting in the opposite direction, but giving the body a rotation in the same direction. Whether it may be in clockwise direction or anti-clockwise.

Test: Moment Of A Couple - Question 2

In statics, a couple is defined as __________ separated by a perpendicular distance.

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Test: Moment Of A Couple - Question 3

The distance between the forces acting in the couple is ____________

Detailed Solution for Test: Moment Of A Couple - Question 3

The distance between the forces acting in the couple is having a finite distance. Couple is the combination of two forces which are acting in the same sense of rotation. That is they are acting in the opposite direction to provide a same direction rotation.

Test: Moment Of A Couple - Question 4

The resultant force acting in the couple is _________

Detailed Solution for Test: Moment Of A Couple - Question 4

The resultant of the force acting on the couple is always zero. As the force are acting in the opposite directions. So if we add the forces algebraically then the sum is going to be zero. Or in other words they cancel each other.

Test: Moment Of A Couple - Question 5

A man is travelling in the car. He is driving the car. If he is taking a turn in the road. He is applying force to the steering wheel by holding the wheel with his both hands. The steering wheel is facing a moment of force.

Detailed Solution for Test: Moment Of A Couple - Question 5

The man is trying to rotate the wheel by applying the force. The force is being applied on the steering wheel. Which is rotating the wheel, but it is the moment of the couple. Because the man has holded the wheel with his both hands, hence it is not the moment of the force.

Test: Moment Of A Couple - Question 6

Which of the following is correct for the moment of couple M caused by two forces of same magnitude F and are separated by a distance of r?

Detailed Solution for Test: Moment Of A Couple - Question 6

The answer is M = rxF. The moment id the cross product of the distance and the forces. It is the direction as directed by the curling of the hand. The thumb representing the direction of the moment. And the motion of the finger, that is the rotation gives the direction of the rotation caused by the forces.

Test: Moment Of A Couple - Question 7

A couple moment is a _______ vector.

Detailed Solution for Test: Moment Of A Couple - Question 7

A couple moment is a free vector. It can be act anywhere between the forces. As the couple is formed by two forces acting in the opposite directions. These forces are separated by a distance r, say, then the moment caused by them can act anywhere in between these forces.

Test: Moment Of A Couple - Question 8

Determine the couple moment acting on the beam shown.

Detailed Solution for Test: Moment Of A Couple - Question 8

As we know that the moment is vector quantity, their summation requires vector math. The couple moment is also the same. That is they are also the vectors, and requires vector math. Thus the resultant couple moment is the vector sum of the various couples acting in the body.

Test: Moment Of A Couple - Question 9

Which of the following is correct?

Detailed Solution for Test: Moment Of A Couple - Question 9

The couple moment depends only on the distance vector between the forces. The radius vector of the forces are not making the couple depended over it. But the distance vector is driven by subtracting the radius vectors of the forces. This means that, moment of the couple doesn’t directly depends on the radius vector of forces.

Test: Moment Of A Couple - Question 10

If the forces acting on the couple are in the same direction, that is they are not in the opposite direction as always they are, then?

Detailed Solution for Test: Moment Of A Couple - Question 10

The forces are always in the opposite direction for the couple moment. But if they don’t act like the same, that is they change their directions and align themselves in the same direction then the couple is not possible.

Test: Moment Of A Couple - Question 11

Determine the couple moment acting on the pipe shown.

Detailed Solution for Test: Moment Of A Couple - Question 11

As we know that the moment is vector quantity, their summation requires vector math. The couple moment is also the same. That is they are also the vectors, and requires vector math. Thus the resultant couple moment is the vector sum of the various couples acting in the body.

Test: Moment Of A Couple - Question 12

The resultant couple moment is ____________ sum of various couples acting on the body.

Detailed Solution for Test: Moment Of A Couple - Question 12

As we know that the moment is vector quantity, their summation requires vector math. The couple moment is also the same. That is they are also the vectors, and requires vector math. Thus the resultant couple moment is the vector sum of the various couples acting in the body.

Test: Moment Of A Couple - Question 13

Determine the couple moment acting on the triangular plane shown.

Detailed Solution for Test: Moment Of A Couple - Question 13

As we know that the moment is vector quantity, their summation requires vector math. The couple moment is also the same. That is they are also the vectors, and requires vector math. Thus the resultant couple moment is the vector sum of the various couples acting in the body.

Test: Moment Of A Couple - Question 14

If two forces magnitude F each are acting in the Cartesian coordinate and are acting at the points A(3,3) and B(-3,3). They are heading towards negative z direction and positive z direction respectively. The distance between them is given as r. The radius vectors of the force at A and B are Ra and Rb respectively. Then the moment is given as:

Detailed Solution for Test: Moment Of A Couple - Question 14

The moment of couple as we know is the cross product of the force and the distance between them. But in this case we are given the radius vectors of the forces. So when we apply the vector maths to find the distance between the forces we get that the distance r = Rb-Ra. Now that we have the distance, we cross it with the force.

Test: Moment Of A Couple - Question 15

Determine the couple moment acting on the pipe shown.

Detailed Solution for Test: Moment Of A Couple - Question 15

As we know that the moment is vector quantity, their summation requires vector math. The couple moment is also the same. That is they are also the vectors, and requires vector math. Thus the resultant couple moment is the vector sum of the various couples acting in the body.

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