The linear velocity of a body rotating at ω rad/s along a circular path of radius r is given by

Engineering Mechanics
The linear velocity of a body rotating at ω rad/s along a circular path of radius r is given by

ω.r

ω/r

ω²/r

ω².r

ω.r

ω/r

ω²/r

ω².r

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Engineering Mechanics
Moment of inertia of a triangular section of base (b) and height (h) about an axis passing through its vertex and parallel to the base, is __________ than that passing through its C.G. and parallel to the base.

Four times

Nine times

Six times

Two times

Four times

Nine times

Six times

Two times

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Engineering Mechanics
If ‘P’ is the force acting on the body, ‘m’ is the mass of the body and ‘a’ is the acceleration of the body, then according to Newton's second law of motion,

P × m.a = 0

P + m.a = 0

P - m.a = 0

P/m.a = 0

P × m.a = 0

P + m.a = 0

P - m.a = 0

P/m.a = 0

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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

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 efficiency of a lifting machine is the ratio of

Mechanical advantage to the velocity ratio

Work done by the machine to the work done on the machine

All of these

Output to the input

Mechanical advantage to the velocity ratio

Work done by the machine to the work done on the machine

All of these

Output to the input

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Engineering Mechanics
The total momentum of a system of masses (i. e. moving bodies) in any one direction remains constant, unless acted upon by an external force in that direction. This statement is called

Principle of conservation of energy

Newton's second law of motion

Newton's first law of motion

Principle of conservation of momentum

Principle of conservation of energy

Newton's second law of motion

Newton's first law of motion

Principle of conservation of momentum

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Engineering Mechanics

Engineering Mechanics The linear velocity of a body rotating at ω rad/s along a circular path of radius r is given by

Engineering Mechanics Moment of inertia of a triangular section of base (b) and height (h) about an axis passing through its vertex and parallel to the base, is __________ than that passing through its C.G. and parallel to the base.

Engineering Mechanics If ‘P’ is the force acting on the body, ‘m’ is the mass of the body and ‘a’ is the acceleration of the body, then according to Newton's second law of motion,

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 efficiency of a lifting machine is the ratio of

Engineering Mechanics The total momentum of a system of masses (i. e. moving bodies) in any one direction remains constant, unless acted upon by an external force in that direction. This statement is called

Engineering Mechanics
The linear velocity of a body rotating at ω rad/s along a circular path of radius r is given by

Engineering Mechanics
Moment of inertia of a triangular section of base (b) and height (h) about an axis passing through its vertex and parallel to the base, is __________ than that passing through its C.G. and parallel to the base.

Engineering Mechanics
If ‘P’ is the force acting on the body, ‘m’ is the mass of the body and ‘a’ is the acceleration of the body, then according to Newton's second law of motion,

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 efficiency of a lifting machine is the ratio of

Engineering Mechanics
The total momentum of a system of masses (i. e. moving bodies) in any one direction remains constant, unless acted upon by an external force in that direction. This statement is called