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
The rotating shafts tend to vibrate violently at whirling speeds because

Bearing centre line coincides with the axis

The shafts are rotating at very high speeds

Resonance is caused due to the heavy mass of the rotor

The system is unbalanced

Bearing centre line coincides with the axis

The shafts are rotating at very high speeds

Resonance is caused due to the heavy mass of the rotor

The system is unbalanced

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Theory of Machine
In multi V-belt transmission, if one of the belt is broken, we have to change the

There is no need of changing any one as remaining belts can take care of transmission of load

All the belts

Broken belt

Broken belt and its adjacent belts

There is no need of changing any one as remaining belts can take care of transmission of load

All the belts

Broken belt

Broken belt and its adjacent belts

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Theory of Machine
In gears, interference takes place when

Gear teeth are undercut

Pitch of the gears is not same

The tip of a tooth of a mating gear digs into the portion between base and root circles

Gears do not move smoothly in the absence of lubrication

Gear teeth are undercut

Pitch of the gears is not same

The tip of a tooth of a mating gear digs into the portion between base and root circles

Gears do not move smoothly in the absence of lubrication

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Theory of Machine
In a mechanism, usually one link is fixed. If the fixed link is changed in a kinematic chain, then relative motion of other links

Could change or remain unaltered depending on which link is fixed

Will remain same

Will not occur

Will change

Could change or remain unaltered depending on which link is fixed

Will remain same

Will not occur

Will change

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Theory of Machine
The equation of motion for a single degree of freedom system with viscous damping is 4(dx²/dt²) + 9(dx/dt) + 16x. The damping ratio of the system is

44090

44082

9/128

30195

44090

44082

9/128

30195

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Theory of Machine

Theory of Machine For dynamic balancing of a shaft

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

Theory of Machine In multi V-belt transmission, if one of the belt is broken, we have to change the

Theory of Machine In gears, interference takes place when

Theory of Machine In a mechanism, usually one link is fixed. If the fixed link is changed in a kinematic chain, then relative motion of other links

Theory of Machine The equation of motion for a single degree of freedom system with viscous damping is 4(dx²/dt²) + 9(dx/dt) + 16x. The damping ratio of the system is

Theory of Machine
For dynamic balancing of a shaft

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

Theory of Machine
In multi V-belt transmission, if one of the belt is broken, we have to change the

Theory of Machine
In gears, interference takes place when

Theory of Machine
In a mechanism, usually one link is fixed. If the fixed link is changed in a kinematic chain, then relative motion of other links

Theory of Machine
The equation of motion for a single degree of freedom system with viscous damping is 4(dx²/dt²) + 9(dx/dt) + 16x. The damping ratio of the system is