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Test: Moment Of Inertia For Composite Areas - Mechanical Engineering MCQ


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15 Questions MCQ Test - Test: Moment Of Inertia For Composite Areas

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

A ______________ body consists of a series of connected “simpler” shaped bodies.

Detailed Solution for Test: Moment Of Inertia For Composite Areas - Question 1

A composite body consists of a series of connected simpler shaped bodies. That is the body is having two material as it’s constitutes. The main thing is that the single material is having the properties of two different materials.

Test: Moment Of Inertia For Composite Areas - Question 2

Composite materials are of no use for the any engineers.

Detailed Solution for Test: Moment Of Inertia For Composite Areas - Question 2

The composite materials are of much importance to the chemical engineer. This means that the composite materials are variedly used in the chemical industries. It can be used in the bridges made for the pipelines, etc.

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Test: Moment Of Inertia For Composite Areas - Question 3

The composite materials are lighter than their constituent material.

Detailed Solution for Test: Moment Of Inertia For Composite Areas - Question 3

Yes the composite materials are lighter than the constituent material. This means that the density of the former is lighter than the latter. Thus imparting many qualities to the materials. Thus the material can be used variedly. This means that the moment of inertia of the structure is low.

Test: Moment Of Inertia For Composite Areas - Question 4

Determine the moment of area of the area below about x-axis.

Detailed Solution for Test: Moment Of Inertia For Composite Areas - Question 4

The product of the centroid of the section to its mass to the total mass of the body is the centre of mass. Thus the answer. The ratio is generally used to locate the coordinate of the centroid or the centre of mass.

Test: Moment Of Inertia For Composite Areas - Question 5

Composite materials can be of __________ shapes for the determination of the moment of composite areas.

Detailed Solution for Test: Moment Of Inertia For Composite Areas - Question 5

The composite materials can be of any shape. This means that the shape of the material can be varied. Thus any shape can be imparted to the composite materials and then be used in the industries variedly.

Test: Moment Of Inertia For Composite Areas - Question 6

The total of all the masses of small particles adds up to give the total body mass of the composite body. This mass lies along with gravity gives a force vector which is being passed by ________

Detailed Solution for Test: Moment Of Inertia For Composite Areas - Question 6

The total body mass along with the product of gravity always passes through the centre of gravity. All the forces are parallel is the right answer. Thus the total sum of all these small weights add up to the total weight of the body. Which passes through the centre of gravity.

Test: Moment Of Inertia For Composite Areas - Question 7

Determine the moment of area of the area below its centroid axis.

Detailed Solution for Test: Moment Of Inertia For Composite Areas - Question 7

The product of the centroid of the section to its mass to the total mass of the body is the centre of mass. Thus the answer. The ratio is generally used to locate the coordinate of the centroid or the centre of mass.

Test: Moment Of Inertia For Composite Areas - Question 8

One of the use of the centre of mass or centroid of the composite bodies is as in the simplification of the loading system the net force acts at the ___________ of the loading body.

Detailed Solution for Test: Moment Of Inertia For Composite Areas - Question 8

In the simplification of the loading system the net force acts at the centroid of the composite body. That is if the loading system is in the form of the triangle then at the distance 2 by 3 of the base the net force of the loading will act. And the load will be half the area of the loading.

Test: Moment Of Inertia For Composite Areas - Question 9

If any external force also is applied on the distributed loading on which the moment of inertia is to be determined on the composite body then?

Detailed Solution for Test: Moment Of Inertia For Composite Areas - Question 9

The external forces are treated differently. They are not added by the force of the distributed loading. That is the force not only acts at the centroid always. It can be shifted also. Depending on the external forces. Thus the use of centroid or centre of mass.

Test: Moment Of Inertia For Composite Areas - Question 10

Two of the things of the composite materials are to be known so that their moment of inertia can be varied. Which of the following is one of them?

Detailed Solution for Test: Moment Of Inertia For Composite Areas - Question 10

The centre of the gravity’s location and the weight of the composite body is needed to be known. This means that if both of the quantities of the composite body is known then the moment of inertia of the body can be altered. Thus both are very important things to be known about the composite bodies.

Test: Moment Of Inertia For Composite Areas - Question 11

The number of particle does affect the moment of inertia. A composite body is consisted of __________ number of particles.

Detailed Solution for Test: Moment Of Inertia For Composite Areas - Question 11

The various bodies are composed of infinite number of particles. They are very small in size. They can’t be seen by our naked eyes. Thus the number of particles is not thousands nor hundreds. But it is uncountable.

Test: Moment Of Inertia For Composite Areas - Question 12

We use sometimes the measures to know the direction of moment of inertia. It is done by right handed coordinate system. Which is right about it for the composite bodies (consider the mentioned axis to be positive)?

Detailed Solution for Test: Moment Of Inertia For Composite Areas - Question 12

As right handed coordinate system means that you are curling your fingers from positive x-axis towards y-axis and the thumb which is projected is pointed to the positive z-axis. Thus visualizing the same and knowing the basic members of axis will not create much problem.

Test: Moment Of Inertia For Composite Areas - Question 13

We often use the centre of mass of the composite area to calculate the moment of inertia. The centre of mass for these composite body is the ratio of ________ to _________

Detailed Solution for Test: Moment Of Inertia For Composite Areas - Question 13

The product of the centroid of the section to its mass to the total mass of the body is the centre of mass. Thus the answer. The ratio is generally used to locate the coordinate of the centroid or the centre of mass.

Test: Moment Of Inertia For Composite Areas - Question 14

What is not the condition for the equilibrium in three dimensional system of axis for the composite bodies if we are determining the moment of inertia for them?

Detailed Solution for Test: Moment Of Inertia For Composite Areas - Question 14

For the equilibrium in the three dimensional system of axis we have all the conditions true as, ∑Fx=0, ∑Fy=0 and ∑Fz=0. Also we have the summation of the forces equal to zero. Which is not a non-zero value.

Test: Moment Of Inertia For Composite Areas - Question 15

We sometimes use the moment caused by the force so as to determine the moment of inertia of the body. The moment is the cross product of which two vectors?

Detailed Solution for Test: Moment Of Inertia For Composite Areas - Question 15

The cross product needs to take in the proper sequence. If not taken then the answer is just the opposite of the true answer. That’s why, the answer is not the Force and Radius vectors, but the Radius and Force vectors. Because the moment has its direction, as many of the cross products have, and thus precaution needs to be taken.

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