The velocity ratio of a differential pulley block with D and d as the diameters of larger and smaller pulley, is

Engineering Mechanics
The velocity ratio of a differential pulley block with D and d as the diameters of larger and smaller pulley, is

D/(D - d)

2D/(D + d)

D/(D + d)

2D/(D - d)

D/(D - d)

2D/(D + d)

D/(D + d)

2D/(D - d)

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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 = IG / Ah2

IP = IG + Ah2

IP = Ah2 / IG

IP = IG - Ah2

IP = IG / Ah2

IP = IG + Ah2

IP = Ah2 / IG

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

2πN/180

2πN/60

πN/180

πN/60

2πN/180

2πN/60

πN/180

πN/60

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Engineering Mechanics
Three forces acting on a rigid body are represented in magnitude, direction and line of action by the three sides of a triangle taken in order. The forces are equivalent to a couple whose moment is equal to

Twice the area of the triangle

Area of the triangle

Half the area of the triangle

None of these

Twice the area of the triangle

Area of the triangle

Half the area of the triangle

None of these

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Engineering Mechanics
For any system of coplanar forces, the condition of equilibrium is that the

All of these

Algebraic sum of the horizontal components of all the forces should be zero

Algebraic sum of the vertical components of all the forces should be zero

Algebraic sum of moments of all the forces about any point should be zero

All of these

Algebraic sum of the horizontal components of all the forces should be zero

Algebraic sum of the vertical components of all the forces should be zero

Algebraic sum of moments of all the forces about any point should be zero

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Engineering Mechanics
The acceleration of a particle moving with simple harmonic motion, at any instant is given by

ω3.y

ω2/y

ω2.y

ω.y

ω3.y

ω2/y

ω2.y

ω.y

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Engineering Mechanics

Engineering Mechanics The velocity ratio of a differential pulley block with D and d as the diameters of larger and smaller pulley, is

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

Engineering Mechanics Three forces acting on a rigid body are represented in magnitude, direction and line of action by the three sides of a triangle taken in order. The forces are equivalent to a couple whose moment is equal to

Engineering Mechanics For any system of coplanar forces, the condition of equilibrium is that the

Engineering Mechanics The acceleration of a particle moving with simple harmonic motion, at any instant is given by

Engineering Mechanics
The velocity ratio of a differential pulley block with D and d as the diameters of larger and smaller pulley, is

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

Engineering Mechanics
Three forces acting on a rigid body are represented in magnitude, direction and line of action by the three sides of a triangle taken in order. The forces are equivalent to a couple whose moment is equal to

Engineering Mechanics
For any system of coplanar forces, the condition of equilibrium is that the

Engineering Mechanics
The acceleration of a particle moving with simple harmonic motion, at any instant is given by