A body is said to be under forced vibrations, when

Theory of Machine
A body is said to be under forced vibrations, when

No external force acts on a body, after giving it an initial displacement

There is a reduction in amplitude after every cycle of vibration

None of these

A body vibrates under the influence of external force

No external force acts on a body, after giving it an initial displacement

There is a reduction in amplitude after every cycle of vibration

None of these

A body vibrates under the influence of external force

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Theory of Machine
When a slider moves on a fixed link having curved surface, their instantaneous centre lies

At the centre of curvature

At the centre of circle

On their point of contact

At the pin joint

At the centre of curvature

At the centre of circle

On their point of contact

At the pin joint

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Theory of Machine
The contact ratio is given by

(Length of the path of approach)/(Circular pitch)

(Length of path of recess)/(Circular pitch)

(Length of the arc of approach)/cosφ

(Length of the arc of contact)/(Circular pitch)

(Length of the path of approach)/(Circular pitch)

(Length of path of recess)/(Circular pitch)

(Length of the arc of approach)/cosφ

(Length of the arc of contact)/(Circular pitch)

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Theory of Machine
In a cam drive with uniform velocity follower, the sharp corners of the displacement diagram are rounded off at the beginning and at the end of each stroke. This is done

Because of difficulty in manufacturing cam profile

Because the uniform velocity motion is a partial parabolic motion

In order to have acceleration in beginning and retardation at the end of stroke within the finite limits

Because of loose contact of follower with cam surface

Because of difficulty in manufacturing cam profile

Because the uniform velocity motion is a partial parabolic motion

In order to have acceleration in beginning and retardation at the end of stroke within the finite limits

Because of loose contact of follower with cam surface

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Theory of Machine
The periodic time of a compound pendulum is __________ when the distance between the point of suspension and the center of gravity is equal to the radius of gyration of the body about its center of gravity.

Maximum

Minimum

Zero

None of these

Maximum

Minimum

Zero

None of these

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Theory of Machine
The frictional torque transmitted in a flat pivot bearing, assuming uniform wear, is(Where μ = Coefficient of friction, W=Load over the bearing, R=Radius of bearing)

²/₃ μWR

μwr

¾μWR

½μWR

²/₃ μWR

μwr

¾μWR

½μWR

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Theory of Machine

Theory of Machine A body is said to be under forced vibrations, when

Theory of Machine When a slider moves on a fixed link having curved surface, their instantaneous centre lies

Theory of Machine The contact ratio is given by

Theory of Machine In a cam drive with uniform velocity follower, the sharp corners of the displacement diagram are rounded off at the beginning and at the end of each stroke. This is done

Theory of Machine The periodic time of a compound pendulum is __________ when the distance between the point of suspension and the center of gravity is equal to the radius of gyration of the body about its center of gravity.

Theory of Machine The frictional torque transmitted in a flat pivot bearing, assuming uniform wear, is(Where μ = Coefficient of friction, W=Load over the bearing, R=Radius of bearing)

Theory of Machine
A body is said to be under forced vibrations, when

Theory of Machine
When a slider moves on a fixed link having curved surface, their instantaneous centre lies

Theory of Machine
The contact ratio is given by

Theory of Machine
In a cam drive with uniform velocity follower, the sharp corners of the displacement diagram are rounded off at the beginning and at the end of each stroke. This is done

Theory of Machine
The periodic time of a compound pendulum is __________ when the distance between the point of suspension and the center of gravity is equal to the radius of gyration of the body about its center of gravity.

Theory of Machine
The frictional torque transmitted in a flat pivot bearing, assuming uniform wear, is(Where μ = Coefficient of friction, W=Load over the bearing, R=Radius of bearing)