When a body moves with simple harmonic motion, the product of its periodic time and frequency is equal to

Theory of Machine
When a body moves with simple harmonic motion, the product of its periodic time and frequency is equal to

π/2

Zero

π

One

π/2

Zero

π

One

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Theory of Machine
The relation between the controlling force (Fc) and radius of rotation (r) for a stable spring controlled governor is

Fc = ar - b

Fc = ar + b

Fc = ar

Fc = a/r + b

Fc = ar - b

Fc = ar + b

Fc = ar

Fc = a/r + b

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Theory of Machine
The example of completely constrained motion is a

Motion of a piston in the cylinder of a steam engine

All of these

Motion of a square bar in a square hole

Motion of a shaft with collars at each end in a circular hole

Motion of a piston in the cylinder of a steam engine

All of these

Motion of a square bar in a square hole

Motion of a shaft with collars at each end in a circular hole

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Theory of Machine
A spring controlled governor is said to be unstable when the controlling force

Increases as the radius of rotation decreases

Decreases as the radius of rotation increases

Increases as the radius of rotation increases

Remains constant for all radii of rotation

Increases as the radius of rotation decreases

Decreases as the radius of rotation increases

Increases as the radius of rotation increases

Remains constant for all radii of rotation

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Theory of Machine
When a point at the end of a link moves with constant angular velocity, its acceleration will have

Radial component only

Coriolis component only

Radial and tangential components both

Tangential component only

Radial component only

Coriolis component only

Radial and tangential components both

Tangential component only

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Theory of Machine
Tangential acceleration direction is

Perpendicular to angular velocity

Opposite to angular velocity

May be any one of these

Along the angular velocity

Perpendicular to angular velocity

Opposite to angular velocity

May be any one of these

Along the angular velocity

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Theory of Machine

Theory of Machine When a body moves with simple harmonic motion, the product of its periodic time and frequency is equal to

Theory of Machine The relation between the controlling force (Fc) and radius of rotation (r) for a stable spring controlled governor is

Theory of Machine The example of completely constrained motion is a

Theory of Machine A spring controlled governor is said to be unstable when the controlling force

Theory of Machine When a point at the end of a link moves with constant angular velocity, its acceleration will have

Theory of Machine Tangential acceleration direction is

Theory of Machine
When a body moves with simple harmonic motion, the product of its periodic time and frequency is equal to

Theory of Machine
The relation between the controlling force (Fc) and radius of rotation (r) for a stable spring controlled governor is

Theory of Machine
The example of completely constrained motion is a

Theory of Machine
A spring controlled governor is said to be unstable when the controlling force

Theory of Machine
When a point at the end of a link moves with constant angular velocity, its acceleration will have

Theory of Machine
Tangential acceleration direction is