In S.H.M., acceleration is proportional to

Theory of Machine
In S.H.M., acceleration is proportional to

Displacement

All of these

Velocity

Rate of change of velocity

Displacement

All of these

Velocity

Rate of change of velocity

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Theory of Machine
The equation of motion for a vibrating system with viscous damping is (d²x/dt²) + (c/m).(dx/dt) + (s/m).x = 0, if the roots of the equation are __________ then the system will be under damped.

Complex conjugate

Real

Equal

None of these

Complex conjugate

Real

Equal

None of these

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Theory of Machine
In a Hartnell governor, the lift of the sleeve is given by (where r₁ and r₂ = Max. and min. radii of rotation, x = Length of ball arm of the lever, and y = Length of sleeve arm of the lever)

(r₁ + r₂) (y/x)

(r₁ + r₂) (x/y)

(r₁ - r₂) (y/x)

(r₁ - r₂) (x/y)

(r₁ + r₂) (y/x)

(r₁ + r₂) (x/y)

(r₁ - r₂) (y/x)

(r₁ - r₂) (x/y)

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Theory of Machine
In vibration isolation system, if ω/ωn < 2, then for all values of damping factor, the transmissibility will be (where ω = Angular speed of the system, ωn = Natural frequency of vibration of the system)

Zero

Less than unity

Equal to unity

Greater than unity

Zero

Less than unity

Equal to unity

Greater than unity

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Theory of Machine
A system of masses rotating in different parallel planes is in dynamic balance if the

Resultant couple is equal to zero

Resultant force is equal to zero

Resultant force is numerically equal to the resultant couple, but neither of them need necessarily be zero

Resultant force and resultant couple are both equal to zero

Resultant couple is equal to zero

Resultant force is equal to zero

Resultant force is numerically equal to the resultant couple, but neither of them need necessarily be zero

Resultant force and resultant couple are both equal to zero

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Theory of Machine
Under logarithmic decrement, the amplitude of successive vibrations are

In logarithmic progression

In geometric progression

Constant

In arithmetic progression

In logarithmic progression

In geometric progression

Constant

In arithmetic progression

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Theory of Machine

Theory of Machine In S.H.M., acceleration is proportional to

Theory of Machine The equation of motion for a vibrating system with viscous damping is (d²x/dt²) + (c/m).(dx/dt) + (s/m).x = 0, if the roots of the equation are __________ then the system will be under damped.

Theory of Machine In a Hartnell governor, the lift of the sleeve is given by (where r₁ and r₂ = Max. and min. radii of rotation, x = Length of ball arm of the lever, and y = Length of sleeve arm of the lever)

Theory of Machine In vibration isolation system, if ω/ωn < 2, then for all values of damping factor, the transmissibility will be (where ω = Angular speed of the system, ωn = Natural frequency of vibration of the system)

Theory of Machine A system of masses rotating in different parallel planes is in dynamic balance if the

Theory of Machine Under logarithmic decrement, the amplitude of successive vibrations are

Theory of Machine
In S.H.M., acceleration is proportional to

Theory of Machine
The equation of motion for a vibrating system with viscous damping is (d²x/dt²) + (c/m).(dx/dt) + (s/m).x = 0, if the roots of the equation are __________ then the system will be under damped.

Theory of Machine
In a Hartnell governor, the lift of the sleeve is given by (where r₁ and r₂ = Max. and min. radii of rotation, x = Length of ball arm of the lever, and y = Length of sleeve arm of the lever)

Theory of Machine
In vibration isolation system, if ω/ωn < 2, then for all values of damping factor, the transmissibility will be (where ω = Angular speed of the system, ωn = Natural frequency of vibration of the system)

Theory of Machine
A system of masses rotating in different parallel planes is in dynamic balance if the

Theory of Machine
Under logarithmic decrement, the amplitude of successive vibrations are