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

P / Q

Q / P

P + Q

P - Q

P / Q

Q / P

P + Q

P - Q

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Engineering Mechanics
In a screw jack, the effort required to lift the load is given by (where W = Load lifted, α = Helix angle, and φ = Angle of friction.)

P = W tan (α - φ)

P = W tan (α + φ)

P = W cos (α + φ)

P = W tan (φ - α)

P = W tan (α - φ)

P = W tan (α + φ)

P = W cos (α + φ)

P = W tan (φ - α)

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Engineering Mechanics
The friction experienced by a body, when at rest, is known as

Dynamic friction

Coefficient of friction

Static friction

Limiting friction

Dynamic friction

Coefficient of friction

Static friction

Limiting friction

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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 friction experienced by a body, when in motion, is known as

Rolling friction

Limiting friction

Dynamic friction

Static friction

Rolling friction

Limiting friction

Dynamic friction

Static friction

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Engineering Mechanics
If the gravitational acceleration at any place is doubled, then the weight of a body will be

g/2

2g

√2.g

g

g/2

2g

√2.g

g

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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 In a screw jack, the effort required to lift the load is given by (where W = Load lifted, α = Helix angle, and φ = Angle of friction.)

Engineering Mechanics The friction experienced by a body, when at rest, is known as

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

Engineering Mechanics The friction experienced by a body, when in motion, is known as

Engineering Mechanics If the gravitational acceleration at any place is doubled, then the weight of a body will be

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
In a screw jack, the effort required to lift the load is given by (where W = Load lifted, α = Helix angle, and φ = Angle of friction.)

Engineering Mechanics
The friction experienced by a body, when at rest, is known as

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

Engineering Mechanics
The friction experienced by a body, when in motion, is known as

Engineering Mechanics
If the gravitational acceleration at any place is doubled, then the weight of a body will be