The acceleration of a body sliding down an inclined surface is

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

None of these

g sinθ

g cosθ

g tanθ

None of these

g sinθ

g cosθ

g tanθ

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Engineering Mechanics
According to the law of moments, if a number of coplanar forces acting on a particle are in equilibrium, then

The algebraic sum of their moments about any point in their plane is zero

Their lines of action are at equal distances

The algebraic sum of their moments about any point is equal to the moment of their resultant force about the same point

Their algebraic sum is zero

The algebraic sum of their moments about any point in their plane is zero

Their lines of action are at equal distances

The algebraic sum of their moments about any point is equal to the moment of their resultant force about the same point

Their algebraic sum is zero

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Engineering Mechanics
The maximum efficiency of a lifting machine is

m/V.R.

1/m

1/(m × V.R.)

V.R./m

m/V.R.

1/m

1/(m × V.R.)

V.R./m

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Engineering Mechanics
The ideal angle of banking provided on the curves on roads depends upon

Nature of the road surface

(Velocity)2 of the vehicle

Weight of the vehicle

Coefficient of friction between the road and vehicle contact point

Nature of the road surface

(Velocity)2 of the vehicle

Weight of the vehicle

Coefficient of friction between the road and vehicle contact point

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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 concurrent forces

Non-coplanar non-concurrent forces

Coplanar non-concurrent forces

Intersecting forces

Non-coplanar concurrent forces

Non-coplanar non-concurrent forces

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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 tanα

P = W (cosα + μsinα)

P = W tan (α + φ)

P = W (sinα + μcosα)

P = W tanα

P = W (cosα + μsinα)

P = W tan (α + φ)

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Engineering Mechanics

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

Engineering Mechanics According to the law of moments, if a number of coplanar forces acting on a particle are in equilibrium, then

Engineering Mechanics The maximum efficiency of a lifting machine is

Engineering Mechanics The ideal angle of banking provided on the curves on roads depends upon

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

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
The acceleration of a body sliding down an inclined surface is

Engineering Mechanics
According to the law of moments, if a number of coplanar forces acting on a particle are in equilibrium, then

Engineering Mechanics
The maximum efficiency of a lifting machine is

Engineering Mechanics
The ideal angle of banking provided on the curves on roads depends upon

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

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.)