Mass moment of inertia of a thin rod about its one end is ___________ the mass moment of inertia of the same rod about its mid-point

Engineering Mechanics
Mass moment of inertia of a thin rod about its one end is ___________ the mass moment of inertia of the same rod about its mid-point

Thrice

Four times

Twice

Same as

Thrice

Four times

Twice

Same as

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Engineering Mechanics
The algebraic sum of the resolved parts of a number of forces in a given direction is equal to the resolved part of their resultant in the same direction. This is known as

Principle of transmissibility of forces

Principle of resolution of forces

None of these

Principle of independence of forces

Principle of transmissibility of forces

Principle of resolution of forces

None of these

Principle of independence of forces

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Engineering Mechanics
The forces, which meet at one point, but their lines of action do not lie in a plane, are called

Non-coplanar non-concurrent forces

Coplanar non-concurrent forces

Intersecting forces

Non-coplanar concurrent forces

Non-coplanar non-concurrent forces

Coplanar non-concurrent forces

Intersecting forces

Non-coplanar concurrent forces

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Engineering Mechanics
When a body of mass moment of inertia 'I' (about a given axis) is rotated about that axis with an angular velocity to, then the kinetic energy of rotation is

0.5 Iω2

0.5 Iω

Iω2

Iω

0.5 Iω2

0.5 Iω

Iω2

Iω

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Engineering Mechanics
Work done is said to be zero, when

No force acts on a body but some displacement takes place

Either (A) or (B)

Some force acts on a body, but displacement is zero

None of these

No force acts on a body but some displacement takes place

Either (A) or (B)

Some force acts on a body, but displacement is zero

None of these

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Engineering Mechanics
A body of weight 'W' is required to move up on rough inclined plane whose angle of inclination with the horizontal is 'α'. The effort applied parallel to the plane is given by (where μ = tanφ = Coefficient of friction between the plane and the body.)

P = W (cosα + μsinα)

P = W tan (α + φ)

P = W tanα

P = W (sinα + μcosα)

P = W (cosα + μsinα)

P = W tan (α + φ)

P = W tanα

P = W (sinα + μcosα)

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Engineering Mechanics

Engineering Mechanics Mass moment of inertia of a thin rod about its one end is ___________ the mass moment of inertia of the same rod about its mid-point

Engineering Mechanics The algebraic sum of the resolved parts of a number of forces in a given direction is equal to the resolved part of their resultant in the same direction. This is known as

Engineering Mechanics The forces, which meet at one point, but their lines of action do not lie in a plane, are called

Engineering Mechanics When a body of mass moment of inertia 'I' (about a given axis) is rotated about that axis with an angular velocity to, then the kinetic energy of rotation is

Engineering Mechanics Work done is said to be zero, when

Engineering Mechanics A body of weight 'W' is required to move up on rough inclined plane whose angle of inclination with the horizontal is 'α'. The effort applied parallel to the plane is given by (where μ = tanφ = Coefficient of friction between the plane and the body.)

Engineering Mechanics
Mass moment of inertia of a thin rod about its one end is ___________ the mass moment of inertia of the same rod about its mid-point

Engineering Mechanics
The algebraic sum of the resolved parts of a number of forces in a given direction is equal to the resolved part of their resultant in the same direction. This is known as

Engineering Mechanics
The forces, which meet at one point, but their lines of action do not lie in a plane, are called

Engineering Mechanics
When a body of mass moment of inertia 'I' (about a given axis) is rotated about that axis with an angular velocity to, then the kinetic energy of rotation is

Engineering Mechanics
Work done is said to be zero, when

Engineering Mechanics
A body of weight 'W' is required to move up on rough inclined plane whose angle of inclination with the horizontal is 'α'. The effort applied parallel to the plane is given by (where μ = tanφ = Coefficient of friction between the plane and the body.)