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

One

π

Zero

π/2

One

π

Zero

π/2

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Theory of Machine
The rotating shafts tend to vibrate violently at whirling speeds because

The shafts are rotating at very high speeds

Bearing centre line coincides with the axis

The system is unbalanced

Resonance is caused due to the heavy mass of the rotor

The shafts are rotating at very high speeds

Bearing centre line coincides with the axis

The system is unbalanced

Resonance is caused due to the heavy mass of the rotor

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Theory of Machine
To obviate axial thrust, following gear drive is used

Mutter gears

Single helical gear in which one of the teeth of helix angle a is more

Double helical gears having opposite teeth

Double helical gears having identical teeth

Mutter gears

Single helical gear in which one of the teeth of helix angle a is more

Double helical gears having opposite teeth

Double helical gears having identical teeth

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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

Tangential component only

Coriolis component only

Radial and tangential components both

Radial component only

Tangential component only

Coriolis component only

Radial and tangential components both

Radial component only

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Theory of Machine
Pitch point on a cam is

Any point on pitch curve

Any point on pitch circle

The point on cam pitch curve having the minimum pressure angle

The point on cam pitch curve having the maximum pressure angle

Any point on pitch curve

Any point on pitch circle

The point on cam pitch curve having the minimum pressure angle

The point on cam pitch curve having the maximum pressure angle

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Theory of Machine
If the damping factor for a vibrating system is unity, then the system will be

Over damped

Without vibrations

Critically damped

Under damped

Over damped

Without vibrations

Critically damped

Under damped

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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 rotating shafts tend to vibrate violently at whirling speeds because

Theory of Machine To obviate axial thrust, following gear drive is used

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

Theory of Machine Pitch point on a cam is

Theory of Machine If the damping factor for a vibrating system is unity, then the system will be

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 rotating shafts tend to vibrate violently at whirling speeds because

Theory of Machine
To obviate axial thrust, following gear drive is used

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

Theory of Machine
Pitch point on a cam is

Theory of Machine
If the damping factor for a vibrating system is unity, then the system will be