For dynamic balancing of a shaft

Theory of Machine
For dynamic balancing of a shaft

Both (A) and (B)

The net dynamic force acting on the shaft is equal to zero

None of these

The net couple due to the dynamic forces acting on the shaft is equal to zero

Both (A) and (B)

The net dynamic force acting on the shaft is equal to zero

None of these

The net couple due to the dynamic forces acting on the shaft is equal to zero

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

On their point of contact

At the centre of circle

At the pin joint

At the centre of curvature

On their point of contact

At the centre of circle

At the pin joint

At the centre of curvature

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Theory of Machine
In a mechanism, the fixed instantaneous centers are those centers which

None of the listed here

Moves as the mechanism moves, but joints are of permanent nature

Remain in the same place for all configurations of the mechanism

Vary with the configuration of the mechanism

None of the listed here

Moves as the mechanism moves, but joints are of permanent nature

Remain in the same place for all configurations of the mechanism

Vary with the configuration of the mechanism

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Theory of Machine
Shaft revolving in a bearing is the following type of pair

Higher pair

Cylindrical pair

Spherical pair

Lower pair

Higher pair

Cylindrical pair

Spherical pair

Lower pair

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Theory of Machine
A ball and a socket forms a

Spherical pair

Turning pair

Rolling pair

Screw pair

Spherical pair

Turning pair

Rolling pair

Screw pair

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Theory of Machine
A thin circular disc is rolling with a uniform linear speed, along a straight path on a plane surface. Which of the following statement is correct in this regard?

The centre of the disc has zero acceleration

The point on the disc making contact with the plane surface has zero acceleration

The centre of the disc has centrifugal acceleration

All points of the disc have the same velocity

The centre of the disc has zero acceleration

The point on the disc making contact with the plane surface has zero acceleration

The centre of the disc has centrifugal acceleration

All points of the disc have the same velocity

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Theory of Machine

Theory of Machine For dynamic balancing of a shaft

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

Theory of Machine In a mechanism, the fixed instantaneous centers are those centers which

Theory of Machine Shaft revolving in a bearing is the following type of pair

Theory of Machine A ball and a socket forms a

Theory of Machine A thin circular disc is rolling with a uniform linear speed, along a straight path on a plane surface. Which of the following statement is correct in this regard?

Theory of Machine
For dynamic balancing of a shaft

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

Theory of Machine
In a mechanism, the fixed instantaneous centers are those centers which

Theory of Machine
Shaft revolving in a bearing is the following type of pair

Theory of Machine
A ball and a socket forms a

Theory of Machine
A thin circular disc is rolling with a uniform linear speed, along a straight path on a plane surface. Which of the following statement is correct in this regard?