The velocity of the belt for maximum power is (where m = Mass of the belt in kg per meter length)

Theory of Machine
The velocity of the belt for maximum power is (where m = Mass of the belt in kg per meter length)

√(T/3m)

√(3m/T)

(T.g)/3

T/3

√(T/3m)

√(3m/T)

(T.g)/3

T/3

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Theory of Machine
In a hydrodynamic journal bearing, there is

A thick film of lubricant between the journal and the bearing

A very thin film of lubricant between the journal and the bearing such that there is contact between the journal and the bearing

No lubricant between the journal and the bearing

A forced lubricant between the journal and the bearing

A thick film of lubricant between the journal and the bearing

A very thin film of lubricant between the journal and the bearing such that there is contact between the journal and the bearing

No lubricant between the journal and the bearing

A forced lubricant between the journal and the bearing

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Theory of Machine
The natural frequency of free transverse vibrations due to a point load acting over a simply supported shaft is equal to (where δ = Static deflection of a simply supported shaft due to the point load)

0.571/√δ

0.6253/√δ

0.5615/√δ

0.4985/√δ

0.571/√δ

0.6253/√δ

0.5615/√δ

0.4985/√δ

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Theory of Machine
In under damped vibrating system, the amplitude of vibration

Increases exponentially with time

Increases linearly with time

Decreases exponentially with time

Decreases linearly with time

Increases exponentially with time

Increases linearly with time

Decreases exponentially with time

Decreases linearly with time

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Theory of Machine
A watt's governor can work satisfactorily at speeds from

200 to 300 r.p.m.

100 to 200 r.p.m.

60 to 80 r.p.m.

80 to 100 r.p.m.

200 to 300 r.p.m.

100 to 200 r.p.m.

60 to 80 r.p.m.

80 to 100 r.p.m.

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Theory of Machine
The swaying couple is due to the

Partial balancing

Primary unbalanced force

Two cylinders of locomotive

Secondary unbalanced force

Partial balancing

Primary unbalanced force

Two cylinders of locomotive

Secondary unbalanced force

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Theory of Machine

Theory of Machine The velocity of the belt for maximum power is (where m = Mass of the belt in kg per meter length)

Theory of Machine In a hydrodynamic journal bearing, there is

Theory of Machine The natural frequency of free transverse vibrations due to a point load acting over a simply supported shaft is equal to (where δ = Static deflection of a simply supported shaft due to the point load)

Theory of Machine In under damped vibrating system, the amplitude of vibration

Theory of Machine A watt's governor can work satisfactorily at speeds from

Theory of Machine The swaying couple is due to the

Theory of Machine
The velocity of the belt for maximum power is (where m = Mass of the belt in kg per meter length)

Theory of Machine
In a hydrodynamic journal bearing, there is

Theory of Machine
The natural frequency of free transverse vibrations due to a point load acting over a simply supported shaft is equal to (where δ = Static deflection of a simply supported shaft due to the point load)

Theory of Machine
In under damped vibrating system, the amplitude of vibration

Theory of Machine
A watt's governor can work satisfactorily at speeds from

Theory of Machine
The swaying couple is due to the