A body is said to be under forced vibrations, when

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

None of these

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

A body vibrates under the influence of external force

There is a reduction in amplitude after every cycle of vibration

None of these

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

A body vibrates under the influence of external force

There is a reduction in amplitude after every cycle of vibration

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Theory of Machine
The motion between a pair when limited to a definite direction, irrespective of the direction of force applied, is known as

None of these

Completely constrained motion

Successfully constrained motion

Incompletely constrained motion

None of these

Completely constrained motion

Successfully constrained motion

Incompletely constrained motion

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Theory of Machine
A torsional system with discs of moment of inertia I₁ and I₂ as shown in the below figure, is gear driven such that the ratio of speed of shaft B to shaft A is 'G'. Neglecting the inertia of gears, the equivalent inertia of disc on shaft B at the speed of shaft A is equal to

G².I₂

G.I₂

I₂/G

I₂/G²

G².I₂

G.I₂

I₂/G

I₂/G²

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Theory of Machine
The pitching of a ship produces forces on the bearings which act __________ to the motion of the ship.

Vertically and perpendicular

Horizontally and parallel

Vertically and parallel

Horizontally and perpendicular

Vertically and perpendicular

Horizontally and parallel

Vertically and parallel

Horizontally and perpendicular

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Theory of Machine
Klein's construction can be used when

Crank has uniform angular velocity and angular acceleration

Crank has non-uniform velocity

Crank has uniform angular acceleration

Crank has a uniform angular velocity

Crank has uniform angular velocity and angular acceleration

Crank has non-uniform velocity

Crank has uniform angular acceleration

Crank has a uniform angular velocity

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Theory of Machine
In a Hartnell governor, the stiffness of the spring is given by (where S1 and S2 = Spring forces exerted on the sleeve at max. and min. radii of rotation, and h = Compression of the spring)

(S₁ - S₂) / 2h

(S₁ + S₂) / 2h

(S₁ - S₂) / h

(S₁ + S₂) / h

(S₁ - S₂) / 2h

(S₁ + S₂) / 2h

(S₁ - S₂) / h

(S₁ + S₂) / h

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Theory of Machine

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

Theory of Machine The motion between a pair when limited to a definite direction, irrespective of the direction of force applied, is known as

Theory of Machine A torsional system with discs of moment of inertia I₁ and I₂ as shown in the below figure, is gear driven such that the ratio of speed of shaft B to shaft A is 'G'. Neglecting the inertia of gears, the equivalent inertia of disc on shaft B at the speed of shaft A is equal to

Theory of Machine The pitching of a ship produces forces on the bearings which act __________ to the motion of the ship.

Theory of Machine Klein's construction can be used when

Theory of Machine In a Hartnell governor, the stiffness of the spring is given by (where S1 and S2 = Spring forces exerted on the sleeve at max. and min. radii of rotation, and h = Compression of the spring)

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

Theory of Machine
The motion between a pair when limited to a definite direction, irrespective of the direction of force applied, is known as

Theory of Machine
A torsional system with discs of moment of inertia I₁ and I₂ as shown in the below figure, is gear driven such that the ratio of speed of shaft B to shaft A is 'G'. Neglecting the inertia of gears, the equivalent inertia of disc on shaft B at the speed of shaft A is equal to

Theory of Machine
The pitching of a ship produces forces on the bearings which act __________ to the motion of the ship.

Theory of Machine
Klein's construction can be used when

Theory of Machine
In a Hartnell governor, the stiffness of the spring is given by (where S1 and S2 = Spring forces exerted on the sleeve at max. and min. radii of rotation, and h = Compression of the spring)