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
In a cone pulley, if the sum of radii of the pulleys on the driving and driven shafts is constant, then

Both open belt drive and crossed belt drive is recommended

The drive is recommended depending upon the torque transmitted

Crossed belt drive is recommended

Open belt drive is recommended

Both open belt drive and crossed belt drive is recommended

The drive is recommended depending upon the torque transmitted

Crossed belt drive is recommended

Open belt drive is recommended

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Theory of Machine
The steering of a ship means

Turning of a complete ship in a curve towards right or left, while it moves forward

Rolling of a complete ship sideways

None of these

Movement of a complete ship up and down in vertical plane about transverse axis

Turning of a complete ship in a curve towards right or left, while it moves forward

Rolling of a complete ship sideways

None of these

Movement of a complete ship up and down in vertical plane about transverse axis

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Theory of Machine
The maximum fluctuation of speed is the

Difference of minimum fluctuation of speed and the mean speed

Difference of the maximum and minimum speeds

Variations of speed above and below the mean resisting torque line

Sum of maximum and minimum speeds

Difference of minimum fluctuation of speed and the mean speed

Difference of the maximum and minimum speeds

Variations of speed above and below the mean resisting torque line

Sum of maximum and minimum speeds

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Theory of Machine
For two governors A and B, the lift of sleeve of governor A is more than that of governor B, for a given fractional change in speed. It indicates that

Both governors A and B are equally sensitive

Governor A is more sensitive than governor B

None of these

Governor B is more sensitive than governor A

Both governors A and B are equally sensitive

Governor A is more sensitive than governor B

None of these

Governor B is more sensitive than governor A

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Theory of Machine
The balancing of a rigid rotor can be achieved by appropriately placing balancing masses in

A single plane

Three planes

Two planes

Four planes

A single plane

Three planes

Two planes

Four planes

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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 In a cone pulley, if the sum of radii of the pulleys on the driving and driven shafts is constant, then

Theory of Machine The steering of a ship means

Theory of Machine The maximum fluctuation of speed is the

Theory of Machine For two governors A and B, the lift of sleeve of governor A is more than that of governor B, for a given fractional change in speed. It indicates that

Theory of Machine The balancing of a rigid rotor can be achieved by appropriately placing balancing masses in

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
In a cone pulley, if the sum of radii of the pulleys on the driving and driven shafts is constant, then

Theory of Machine
The steering of a ship means

Theory of Machine
The maximum fluctuation of speed is the

Theory of Machine
For two governors A and B, the lift of sleeve of governor A is more than that of governor B, for a given fractional change in speed. It indicates that

Theory of Machine
The balancing of a rigid rotor can be achieved by appropriately placing balancing masses in