A body is said to be under forced vibrations, when

Theory of Machine
A body is said to be under forced vibrations, when

There is a reduction in amplitude after every cycle of vibration

No external force acts on a body, after giving it an initial displacement

A body vibrates under the influence of external force

None of these

There is a reduction in amplitude after every cycle of vibration

No external force acts on a body, after giving it an initial displacement

A body vibrates under the influence of external force

None of these

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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

Governor A is more sensitive than governor B

Both governors A and B are equally sensitive

None of these

Governor B is more sensitive than governor A

Governor A is more sensitive than governor B

Both governors A and B are equally sensitive

None of these

Governor B is more sensitive than governor A

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Theory of Machine
According to Kennedy's theorem, if three bodies have plane motions, their instantaneous centers lie on A. A triangle

A straight line

A triangle

Two lines

A point

A straight line

A triangle

Two lines

A point

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Theory of Machine
Which one of the following can completely balance several masses revolving in different planes on a shaft?

Two equal masses in any two planes

A single mass in different planes

A single mass in one of the planes of the revolving masses

Two masses in any two planes

Two equal masses in any two planes

A single mass in different planes

A single mass in one of the planes of the revolving masses

Two masses in any two planes

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Theory of Machine
It is required to connect two parallel shafts, the distance between whose axes is small and variable. The shafts are coupled by

Universal joint

Knuckle joint

Flexible coupling

Oldham's coupling

Universal joint

Knuckle joint

Flexible coupling

Oldham's coupling

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Theory of Machine
A disturbing mass m₁ attached to the rotating shaft may be balanced by a single mass m₂ attached in the same plane of rotation as that of m₁, such that (where r₁ and r₂ are the radii of rotation of m₁ and m₂ respectively)

m₁ m₂ = r₁ r₂

None of these

m₁ r₁ = m₂ r₂

m₁ r₂ = m₂ r₁

m₁ m₂ = r₁ r₂

None of these

m₁ r₁ = m₂ r₂

m₁ r₂ = m₂ r₁

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Theory of Machine

Theory of Machine A body is said to be under forced vibrations, when

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 According to Kennedy's theorem, if three bodies have plane motions, their instantaneous centers lie on A. A triangle

Theory of Machine Which one of the following can completely balance several masses revolving in different planes on a shaft?

Theory of Machine It is required to connect two parallel shafts, the distance between whose axes is small and variable. The shafts are coupled by

Theory of Machine A disturbing mass m₁ attached to the rotating shaft may be balanced by a single mass m₂ attached in the same plane of rotation as that of m₁, such that (where r₁ and r₂ are the radii of rotation of m₁ and m₂ respectively)

Theory of Machine
A body is said to be under forced vibrations, when

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
According to Kennedy's theorem, if three bodies have plane motions, their instantaneous centers lie on A. A triangle

Theory of Machine
Which one of the following can completely balance several masses revolving in different planes on a shaft?

Theory of Machine
It is required to connect two parallel shafts, the distance between whose axes is small and variable. The shafts are coupled by

Theory of Machine
A disturbing mass m₁ attached to the rotating shaft may be balanced by a single mass m₂ attached in the same plane of rotation as that of m₁, such that (where r₁ and r₂ are the radii of rotation of m₁ and m₂ respectively)