50+ JEE Mains MCQ Questions Mechanical Properties of Solids with Solutions

Preparing for the Joint Entrance Exam (JEE) can be a daunting task. With so many subjects to cover and so many topics to study, it can be challenging to know where to start. One essential topic in the JEE Mains syllabus is the Mechanical Properties of Solids. In this article, we will provide 50+ MCQ questions on the Mechanical Properties of Solids, along with detailed solutions to help you prepare for the JEE Mains exam.

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These 50+ MCQ questions are selected by the experts of studyrate.in and these are more difficult questions, which will help you to better understand Mechanical Properties of Solids JEE Mains MCQ Questions with Answers.

Mechanical Properties of Solids JEE Mains MCQ

Young’s modulus is a measure of a material’s:
a) Elasticity
b) Strength
c) Toughness
d) Ductility

Answer: a) Elasticity

The formula for Young’s modulus (Y) is given by:
a) Y = Stress/Strain
b) Y = Strain/Stress
c) Y = Force/Area
d) Y = Area/Force

Answer: a) Y = Stress/Strain

Poisson’s ratio is a measure of:
a) Elastic limit
b) Elasticity
c) Compressibility
d) Ductility

Answer: c) Compressibility

The value of Poisson’s ratio lies between:
a) 0 and 1
b) -1 and 0
c) 1 and 2
d) -2 and -1

Answer: b) -1 and 0

Hooke’s law states that the strain produced in a material is directly proportional to:
a) Stress applied to the material
b) Length of the material
c) Temperature of the material
d) Density of the material

Answer: a) Stress applied to the material

The elastic limit is the maximum stress a material can withstand without:
a) Breaking
b) Deforming
c) Melting
d) Conducting heat

Answer: b) Deforming

The yield point of a material is the point at which:
a) Elastic deformation occurs
b) Plastic deformation occurs
c) Fracture occurs
d) Melting occurs

Answer: b) Plastic deformation occurs

The ultimate strength of a material is the maximum:
a) Stress it can withstand
b) Strain it can withstand
c) Load it can withstand
d) Displacement it can withstand


Answer: a) Stress it can withstand


Young’s modulus is a measure of:
a) Elasticity
b) Tensile strength
c) Hardness
d) Brittleness

Answer: a) Elasticity

The formula for Young’s modulus (Y) is given by:
a) Y = Stress/Strain
b) Y = Strain/Stress
c) Y = Force/Area
d) Y = Area/Force

Answer: a) Y = Stress/Strain

Poisson’s ratio is a measure of:
a) Elastic limit
b) Elasticity
c) Compressibility
d) Ductility

Answer: c) Compressibility

The value of Poisson’s ratio lies between:
a) 0 and 1
b) -1 and 0
c) 1 and 2
d) -1 and 0.5

Answer: b) -1 and 0.5

Hooke’s law states that the strain produced in a material is directly proportional to:
a) Stress applied to the material
b) Length of the material
c) Temperature of the material
d) Density of the material

Answer: a) Stress applied to the material

The elastic limit is the maximum stress a material can withstand without:
a) Breaking
b) Deforming
c) Melting
d) Conducting heat

Answer: b) Deforming

The yield point of a material is the point at which:
a) Elastic deformation occurs
b) Plastic deformation occurs
c) Fracture occurs
d) Melting occurs

Answer: b) Plastic deformation occurs

The ultimate strength of a material is the maximum:
a) Stress it can withstand
b) Strain it can withstand
c) Load it can withstand
d) Displacement it can withstand

Answer: a) Stress it can withstand

The breaking stress is the stress at which:
a) Elastic deformation occurs
b) Plastic deformation occurs
c) Fracture occurs
d) Yielding occurs

Answer: c) Fracture occurs

Which property of a material determines its ability to withstand scratching or indentation?
a) Hardness
b) Toughness
c) Elasticity
d) Ductility

Answer: a) Hardness

The measure of a material’s resistance to fracture when a crack is present is called:
a) Toughness
b) Hardness
c) Elasticity
d) Brittleness

Answer: a) Toughness

The ability of a material to be stretched into a wire is called:
a) Hardness
b) Toughness
c) Elasticity
d) Ductility

Answer: d) Ductility

The ability of a material to be hammered into thin sheets is called:
a) Hardness
b) Toughness
c) Elasticity
d) Malleability

Answer: d) Malleability

The ability of a material to resist being pulled apart is called:
a) Tensile strength
b) Compressive strength
c) Shear strength
d) Flexural strength

Answer: a) Tensile strength

The ratio of the lateral strain to the longitudinal strain within the elastic limit is called:
a) Young’s modulus
b) Bulk modulus
c) Shear modulus
d) Poisson’s ratio

Answer: d) Poisson’s ratio

The property of a material that enables it to regain its original shape after deformation is called:
a) Elasticity
b) Plasticity
c) Ductility
d) Malleability

Answer: a) Elasticity

Which of the following materials has the highest value of Young’s modulus?
a) Rubber
b) Steel
c) Aluminum
d) Glass

Answer: b) Steel

The area under the stress-strain curve represents:
a) Elastic potential energy
b) Plastic potential energy
c) Work done on the material
d) Strain energy

Answer: d) Strain energy

When a material is subjected to a gradually increasing load without any sudden failure, it is said to have:
a) Brittle behavior
b) Plastic behavior
c) Ductile behavior
d) Elastic behavior

Answer: c) Ductile behavior

The ratio of stress to strain within the elastic limit of a material is called:
a) Young’s modulus
b) Bulk modulus
c) Shear modulus
d) Poisson’s ratio

Answer: a) Young’s modulus

Which of the following statements is true for a perfectly elastic material?
a) The strain is directly proportional to the stress
b) The strain is inversely proportional to the stress
c) The stress is directly proportional to the strain squared
d) The stress is directly proportional to the strain cubed

Answer: a) The strain is directly proportional to the stress

The force per unit area required to produce unit strain in a material is called:
a) Young’s modulus
b) Bulk modulus
c) Shear modulus
d) Stress

Answer: d) Stress

The strain produced in a material per unit stress is called:
a) Young’s modulus
b) Bulk modulus
c) Shear modulus
d) Strain

Answer: d) Strain

The ability of a material to absorb energy without breaking is called:
a) Hardness
b) Toughness
c) Elasticity
d) Brittleness

Answer: b) Toughness

Which of the following materials has the highest value of shear modulus?
a) Rubber
b) Steel
c) Aluminum
d) Glass

Answer: d) Glass

The ratio of the change in volume to the original volume of a material, due to a change in pressure, is called:
a) Young’s modulus
b) Bulk modulus
c) Shear modulus
d) Poisson’s ratio

Answer: b) Bulk modulus

The property of a material that enables it to be twisted without breaking is called:
a) Tensile strength
b) Compressive strength
c) Shear strength
d) Flexural strength

Answer: c) Shear strength

The ability of a material to withstand compression without crushing is called:
a) Tensile strength
b) Compressive strength
c) Shear strength
d) Flexural strength

Answer: b) Compressive strength

The ability of a material to withstand bending without breaking is called:
a) Tensile strength
b) Compressive strength
c) Shear strength
d) Flexural strength

Answer: d) Flexural strength

The property of a material that enables it to resist scratching or indentation is called:
a) Hardness
b) Toughness
c) Elasticity
d) Brittleness

Answer: a) Hardness

We hope there JEE MCQ of Class 11 Mechanical Properties of Solids will help you to score an excellent rank in JEE Mains and Advanced. If you have any queries feel free to write in the comments section. We at Study Rate are always ready to serve our students.

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