The angular velocity (in rad/s) of a body rotating at N revolutions per minute is

Engineering Mechanics
The angular velocity (in rad/s) of a body rotating at N revolutions per minute is

πN/180

2πN/60

2πN/180

πN/60

πN/180

2πN/60

2πN/180

πN/60

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Engineering Mechanics
The total motion possessed by a body, is called

Mass

Weight

Impulsive force

Momentum

Mass

Weight

Impulsive force

Momentum

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Engineering Mechanics
According to Newton's first law of motion,

The rate of change of momentum is directly proportional to the impressed force, and takes place in the same direction, in which the force acts

None of these

Everybody continues in its state of rest or of uniform motion, in a straight line, unless it is acted upon by some external force

To every action, there is always an equal and opposite reaction

The rate of change of momentum is directly proportional to the impressed force, and takes place in the same direction, in which the force acts

None of these

Everybody continues in its state of rest or of uniform motion, in a straight line, unless it is acted upon by some external force

To every action, there is always an equal and opposite reaction

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Engineering Mechanics
The acceleration of a body sliding down an inclined surface is

None of these

g tanθ

g cosθ

g sinθ

None of these

g tanθ

g cosθ

g sinθ

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Engineering Mechanics
Which is the correct statement about law of polygon of forces?

If a polygon representing forces acting at a point is closed then forces are in equilibrium

If any number of forces acting at a point can be represented by the sides of a polygon taken in order, then the forces are in equilibrium

If any number of forces acting at a point can be represented in direction and magnitude by the sides of a polygon taken in order, then the forces are in equilibrium

If any number of forces acting at a point can be represented in direction and magnitude by the sides of a polygon, then the forces are in equilibrium

If a polygon representing forces acting at a point is closed then forces are in equilibrium

If any number of forces acting at a point can be represented by the sides of a polygon taken in order, then the forces are in equilibrium

If any number of forces acting at a point can be represented in direction and magnitude by the sides of a polygon taken in order, then the forces are in equilibrium

If any number of forces acting at a point can be represented in direction and magnitude by the sides of a polygon, then the forces are in equilibrium

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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

None of these

Principle of independence of forces

Principle of resolution of forces

Principle of transmissibility of forces

None of these

Principle of independence of forces

Principle of resolution of forces

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Engineering Mechanics

Engineering Mechanics The angular velocity (in rad/s) of a body rotating at N revolutions per minute is

Engineering Mechanics The total motion possessed by a body, is called

Engineering Mechanics According to Newton's first law of motion,

Engineering Mechanics The acceleration of a body sliding down an inclined surface is

Engineering Mechanics Which is the correct statement about law of polygon of forces?

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 angular velocity (in rad/s) of a body rotating at N revolutions per minute is

Engineering Mechanics
The total motion possessed by a body, is called

Engineering Mechanics
According to Newton's first law of motion,

Engineering Mechanics
The acceleration of a body sliding down an inclined surface is

Engineering Mechanics
Which is the correct statement about law of polygon of forces?

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