The velocity of a particle (v) moving with simple harmonic motion, at any instant is given by (where, r = Amplitude of motion, and y = Displacement of the particle from mean position.)

Engineering Mechanics
The velocity of a particle (v) moving with simple harmonic motion, at any instant is given by (where, r = Amplitude of motion, and y = Displacement of the particle from mean position.)

ω.√(y² - r²)

ω.√(r² - y²)

ω².√(r² - y²)

ω².√(y² - r²)

ω.√(y² - r²)

ω.√(r² - y²)

ω².√(r² - y²)

ω².√(y² - r²)

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Engineering Mechanics
According to parallel axis theorem, the moment of inertia of a section about an axis parallel to the axis through center of gravity (i.e. IP) is given by(where, A = Area of the section, IG = Moment of inertia of the section about an axis passing through its C.G., and h = Distance between C.G. and the parallel axis.)

IP = IG / Ah2

IP = Ah2 / IG

IP = IG - Ah2

IP = IG + Ah2

IP = IG / Ah2

IP = Ah2 / IG

IP = IG - Ah2

IP = IG + Ah2

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Engineering Mechanics
On the ladder resting on the ground and leaning against a smooth vertical wall, the force of friction will be

Upwards at its upper end

Downwards at its upper end

Perpendicular to the wall at its upper end

Zero at its upper end

Upwards at its upper end

Downwards at its upper end

Perpendicular to the wall at its upper end

Zero at its upper end

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Engineering Mechanics
If rain is falling in the opposite direction of the movement of a pedestrian, he has to hold his umbrella

More inclined when moving

Less inclined when standing

More inclined when standing

Less inclined when moving

More inclined when moving

Less inclined when standing

More inclined when standing

Less inclined when moving

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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 (sinα + μcosα)

P = W tan (α + φ)

P = W tanα

P = W (cosα + μsinα)

P = W (sinα + μcosα)

P = W tan (α + φ)

P = W tanα

P = W (cosα + μsinα)

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Engineering Mechanics
Coefficient of friction depends upon

None of these

Nature of surface only

Area of contact only

Both (A) and (B)

None of these

Nature of surface only

Area of contact only

Both (A) and (B)

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Engineering Mechanics

Engineering Mechanics The velocity of a particle (v) moving with simple harmonic motion, at any instant is given by (where, r = Amplitude of motion, and y = Displacement of the particle from mean position.)

Engineering Mechanics On the ladder resting on the ground and leaning against a smooth vertical wall, the force of friction will be

Engineering Mechanics If rain is falling in the opposite direction of the movement of a pedestrian, he has to hold his umbrella

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 Coefficient of friction depends upon

Engineering Mechanics
The velocity of a particle (v) moving with simple harmonic motion, at any instant is given by (where, r = Amplitude of motion, and y = Displacement of the particle from mean position.)

Engineering Mechanics
On the ladder resting on the ground and leaning against a smooth vertical wall, the force of friction will be

Engineering Mechanics
If rain is falling in the opposite direction of the movement of a pedestrian, he has to hold his umbrella

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
Coefficient of friction depends upon