The moment of inertia of a sphere of mass 'm' and radius 'r', about an axis tangential to it, is

Engineering Mechanics
The moment of inertia of a sphere of mass 'm' and radius 'r', about an axis tangential to it, is

2mr²/5

2mr²/3

7mr²/3

7mr²/5

2mr²/5

2mr²/3

7mr²/3

7mr²/5

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Engineering Mechanics
The static friction

Bears a constant ratio to the normal reaction between the two surfaces

Is independent of the area of contact, between the two surfaces

Always acts in a direction, opposite to that in which the body tends to move

All of these

Bears a constant ratio to the normal reaction between the two surfaces

Is independent of the area of contact, between the two surfaces

Always acts in a direction, opposite to that in which the body tends to move

All of these

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Engineering Mechanics
The forces, whose lines of action are parallel to each other and act in the same directions, are known as

Unlike parallel forces

Like parallel forces

Coplanar concurrent forces

Coplanar non-concurrent forces

Unlike parallel forces

Like parallel forces

Coplanar concurrent forces

Coplanar non-concurrent forces

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Engineering Mechanics
The loss of kinetic energy during inelastic impact, is given by (where m1 = Mass of the first body,m2 = Mass of the second body, and u1 and u2 = Velocities of the first and second bodies respectively.)

[2(m₁ + m₂)/m₁ m₂] (u₁ - u₂)²

[m₁ m₂/2(m₁ + m₂)] (u₁² - u₂²)

[2(m₁ + m₂)/m₁ m₂] (u₁² - u₂²)

[m₁ m₂/2(m₁ + m₂)] (u₁ - u₂)²

[2(m₁ + m₂)/m₁ m₂] (u₁ - u₂)²

[m₁ m₂/2(m₁ + m₂)] (u₁² - u₂²)

[2(m₁ + m₂)/m₁ m₂] (u₁² - u₂²)

[m₁ m₂/2(m₁ + m₂)] (u₁ - u₂)²

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Engineering Mechanics
The three forces of 100 N, 200 N and 300 N have their lines of action parallel to each other but act in the opposite directions. These forces are known as

Like parallel forces

Coplanar non-concurrent forces

Coplanar concurrent forces

Unlike parallel forces

Like parallel forces

Coplanar non-concurrent forces

Coplanar concurrent forces

Unlike parallel forces

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Engineering Mechanics
The velocity of a particle moving with simple harmonic motion is _________ at the mean position.

Maximum

None of these

Minimum

Zero

Maximum

None of these

Minimum

Zero

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Engineering Mechanics

Engineering Mechanics The moment of inertia of a sphere of mass 'm' and radius 'r', about an axis tangential to it, is

Engineering Mechanics The static friction

Engineering Mechanics The forces, whose lines of action are parallel to each other and act in the same directions, are known as

Engineering Mechanics The loss of kinetic energy during inelastic impact, is given by (where m1 = Mass of the first body,m2 = Mass of the second body, and u1 and u2 = Velocities of the first and second bodies respectively.)

Engineering Mechanics The three forces of 100 N, 200 N and 300 N have their lines of action parallel to each other but act in the opposite directions. These forces are known as

Engineering Mechanics The velocity of a particle moving with simple harmonic motion is _________ at the mean position.

Engineering Mechanics
The moment of inertia of a sphere of mass 'm' and radius 'r', about an axis tangential to it, is

Engineering Mechanics
The static friction

Engineering Mechanics
The forces, whose lines of action are parallel to each other and act in the same directions, are known as

Engineering Mechanics
The loss of kinetic energy during inelastic impact, is given by (where m1 = Mass of the first body,m2 = Mass of the second body, and u1 and u2 = Velocities of the first and second bodies respectively.)

Engineering Mechanics
The three forces of 100 N, 200 N and 300 N have their lines of action parallel to each other but act in the opposite directions. These forces are known as

Engineering Mechanics
The velocity of a particle moving with simple harmonic motion is _________ at the mean position.