If the body falls freely under gravity, then the gravitational acceleration is taken as

Engineering Mechanics
If the body falls freely under gravity, then the gravitational acceleration is taken as

+9.8 m/s2

-8.9 m/s2

+8.9 m/s2

-9.8 m/s2

+9.8 m/s2

-8.9 m/s2

+8.9 m/s2

-9.8 m/s2

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Engineering Mechanics
The point, through which the whole weight of the body acts, irrespective of its position, is known as

Center of mass

Center of gravity

Center of percussion

Moment of inertia

Center of mass

Center of gravity

Center of percussion

Moment of inertia

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Engineering Mechanics
The equivalent length of a simple pendulum which gives the same frequency as compound pendulum is

(kG² + h²)/h

h²/(kG² + h²)

h/(kG² + h²)

(kG² + h²)/h²

(kG² + h²)/h

h²/(kG² + h²)

h/(kG² + h²)

(kG² + h²)/h²

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Engineering Mechanics
An ideal machine is one whose efficiency is

Between 80 and 90%

Between 60 and 70 %

Between 70 and 80%

1

Between 80 and 90%

Between 60 and 70 %

Between 70 and 80%

1

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Engineering Mechanics
The resolved part of the resultant of two forces inclined at an angle 'θ' in a given direction is equal to

The algebraic sum of the resolved parts of the forces in the given direction

The sum of the resolved parts of the forces in the given direction

The difference of the forces multiplied by the cosine of θ

The sum of the forces multiplied by the sine of θ

The algebraic sum of the resolved parts of the forces in the given direction

The sum of the resolved parts of the forces in the given direction

The difference of the forces multiplied by the cosine of θ

The sum of the forces multiplied by the sine of θ

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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 tanα

P = W (sinα + μcosα)

P = W tan (α + φ)

P = W (cosα + μsinα)

P = W tanα

P = W (sinα + μcosα)

P = W tan (α + φ)

P = W (cosα + μsinα)

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Engineering Mechanics

Engineering Mechanics If the body falls freely under gravity, then the gravitational acceleration is taken as

Engineering Mechanics The point, through which the whole weight of the body acts, irrespective of its position, is known as

Engineering Mechanics The equivalent length of a simple pendulum which gives the same frequency as compound pendulum is

Engineering Mechanics An ideal machine is one whose efficiency is

Engineering Mechanics The resolved part of the resultant of two forces inclined at an angle 'θ' in a given direction is equal to

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
If the body falls freely under gravity, then the gravitational acceleration is taken as

Engineering Mechanics
The point, through which the whole weight of the body acts, irrespective of its position, is known as

Engineering Mechanics
The equivalent length of a simple pendulum which gives the same frequency as compound pendulum is

Engineering Mechanics
An ideal machine is one whose efficiency is

Engineering Mechanics
The resolved part of the resultant of two forces inclined at an angle 'θ' in a given direction is equal to

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.)