The resultant of two forces P and Q (such that P > Q) acting along the same straight line, but in opposite direction, is given by

Engineering Mechanics
The resultant of two forces P and Q (such that P > Q) acting along the same straight line, but in opposite direction, is given by

Q / P

P + Q

P - Q

P / Q

Q / P

P + Q

P - Q

P / Q

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Engineering Mechanics
A machine having an efficiency less than 50%, is known as

Ideal machine

Non-reversible machine

Neither reversible nor non-reversible machine

Reversible machine

Ideal machine

Non-reversible machine

Neither reversible nor non-reversible machine

Reversible machine

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Engineering Mechanics
In order to determine the effects of a force, acting on a body, we must know

Nature of the force i.e. whether the force is push or pull

All of these

Line of action of the force

Magnitude of the force

Nature of the force i.e. whether the force is push or pull

All of these

Line of action of the force

Magnitude of the force

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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

Coplanar non-concurrent forces

Intersecting forces

Non-coplanar non-concurrent forces

Non-coplanar concurrent forces

Coplanar non-concurrent forces

Intersecting forces

Non-coplanar non-concurrent forces

Non-coplanar concurrent forces

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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

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

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

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

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

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

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Engineering Mechanics
The center of gravity of a quadrant of a circle lies along its central radius (r) at a distance of

0.7 r

0.8 r

0.6 r

0.5 r

0.7 r

0.8 r

0.6 r

0.5 r

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Engineering Mechanics

Engineering Mechanics The resultant of two forces P and Q (such that P > Q) acting along the same straight line, but in opposite direction, is given by

Engineering Mechanics A machine having an efficiency less than 50%, is known as

Engineering Mechanics In order to determine the effects of a force, acting on a body, we must know

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

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

Engineering Mechanics The center of gravity of a quadrant of a circle lies along its central radius (r) at a distance of

Engineering Mechanics
The resultant of two forces P and Q (such that P > Q) acting along the same straight line, but in opposite direction, is given by

Engineering Mechanics
A machine having an efficiency less than 50%, is known as

Engineering Mechanics
In order to determine the effects of a force, acting on a body, we must know

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

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

Engineering Mechanics
The center of gravity of a quadrant of a circle lies along its central radius (r) at a distance of