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Test: Elastic Moduli & Applications of Elastic Behaviour of Materials (August 15) - NEET MCQ


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Test: Elastic Moduli & Applications of Elastic Behaviour of Materials (August 15) - Question 1

Which of the following represents Hooke’s Law?

Detailed Solution for Test: Elastic Moduli & Applications of Elastic Behaviour of Materials (August 15) - Question 1

The  law states that the strain in a solid is proportional to the applied stress within the elastic limit of that solid body i.e. stress = k x strain.

Test: Elastic Moduli & Applications of Elastic Behaviour of Materials (August 15) - Question 2

A body is said to be perfectly elastic if

Detailed Solution for Test: Elastic Moduli & Applications of Elastic Behaviour of Materials (August 15) - Question 2

A body is said to be perfectly elastic when its coefficient of restitution is 1 or we observe total  reformation in the body. That means that whatever hits it doesn't lose any of its kinetic energy or once the body gets totally reformed after a collision.

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Test: Elastic Moduli & Applications of Elastic Behaviour of Materials (August 15) - Question 3

Materials that show very small plastic range beyond elastic limit are called

Detailed Solution for Test: Elastic Moduli & Applications of Elastic Behaviour of Materials (August 15) - Question 3

Beyond the elastic limit, if still some force is applied to the body, at first the body deforms completely and when it can’t deform more, it starts to break into pieces. Now when the plastic range is small, on less extent of applied external force the body would break. And we know such objects are called brittle.

Test: Elastic Moduli & Applications of Elastic Behaviour of Materials (August 15) - Question 4

If proportional limit is not exceeded, energy per unit volume in stretched wire is

Detailed Solution for Test: Elastic Moduli & Applications of Elastic Behaviour of Materials (August 15) - Question 4

strain energy=1/2×stress × strain Work done by a force on a wire
W =2LAy(ΔL)2/2L
=1/2(yALΔ/L)ΔL
=1/2​(yΔL/L)(ΔL/L)(AL)
=1/2(Stress)(Strain)(Volume)
(Work)/(volume)=1/2*(stress)(strain)

Test: Elastic Moduli & Applications of Elastic Behaviour of Materials (August 15) - Question 5

When a 13.2 kg mass is placed on top of a vertical spring, the spring compresses by 5.93 cm. Find the force constant of the spring.

Detailed Solution for Test: Elastic Moduli & Applications of Elastic Behaviour of Materials (August 15) - Question 5


Test: Elastic Moduli & Applications of Elastic Behaviour of Materials (August 15) - Question 6

Dimensional formula of stress is same as that of

Detailed Solution for Test: Elastic Moduli & Applications of Elastic Behaviour of Materials (August 15) - Question 6

Stress is referred to as the applied strain over a unit area, and we know strain is the force acting along the line, which means strain and force have the same dimensions. Thus stress and pressure have the same dimensions too.

 

Dimension of Force =[MLT−2]
Dimension of Area = [M0L2T0]
Therefore, Dimension of Stress = [MLT−2]/[M0L2T0]
                    = [ML−1T−2]
Dimension of pressure =[ML−1T−2]

Test: Elastic Moduli & Applications of Elastic Behaviour of Materials (August 15) - Question 7

The length of the wire is increased by 1 mm on the application of a given load. In a wire of the same material but of length and radius twice that of the first, on application of the same force, extension produced is

Detailed Solution for Test: Elastic Moduli & Applications of Elastic Behaviour of Materials (August 15) - Question 7

Young's Modulus of elasticity =stress/strain
Y= [F/a/△l/l] ​ or Y= [Fl​/a△l]
or △l= [Fl/aY] ​= Fl​/ πr2Y
In the given problem, △l∝ l​/ r2
When both l and r are doubled, △l is halved.

Test: Elastic Moduli & Applications of Elastic Behaviour of Materials (August 15) - Question 8

The materials which have the same elastic properties in all directions are called __________.

Detailed Solution for Test: Elastic Moduli & Applications of Elastic Behaviour of Materials (August 15) - Question 8

Same elastic properties in all direction is called the homogenity of a material.

Test: Elastic Moduli & Applications of Elastic Behaviour of Materials (August 15) - Question 9

Modulus of rigidity is defined as the

Detailed Solution for Test: Elastic Moduli & Applications of Elastic Behaviour of Materials (August 15) - Question 9

Modulus of rigidity is defined as the ratio of Shear stress to shear strain.

Test: Elastic Moduli & Applications of Elastic Behaviour of Materials (August 15) - Question 10

An iron bar of length l cm and cross section A cm2 is pulled by a force F dynes from the ends so as to produce an elongation l cm. Which of the following statements is correct?

Detailed Solution for Test: Elastic Moduli & Applications of Elastic Behaviour of Materials (August 15) - Question 10

F =AYΔl/L
Δl = FL/AY

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