A friction circle is a circle drawn when a journal rotates in a bearing. Its radius depends upon the coefficient of friction and the

Theory of Machine
A friction circle is a circle drawn when a journal rotates in a bearing. Its radius depends upon the coefficient of friction and the

Magnitude of the forces on journal

Angular velocity of journal

Clearance between journal and bearing

Radius of journal

Magnitude of the forces on journal

Angular velocity of journal

Clearance between journal and bearing

Radius of journal

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Theory of Machine
In a rigid link OA, velocity of 'A' w.r.t. 'O' will be

Along AO

At 45° to OA

Perpendicular to OA

Parallel to OA

Along AO

At 45° to OA

Perpendicular to OA

Parallel to OA

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Theory of Machine
One end of a helical spring is fixed while the other end carries the load W which moves with simple harmonic motion. The frequency of motion is given by (where δ = Deflection of the spring)

2π. √(δ/g)

1/2π. √(g/δ)

1/2π. √(δ/g)

2π. √(g/δ)

2π. √(δ/g)

1/2π. √(g/δ)

1/2π. √(δ/g)

2π. √(g/δ)

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Theory of Machine
The factional torque for square thread at the mean radius r while raising load W is given by

T = W.r tanα

T = W.r tan(φ + α)

T = W.r tan(φ - α)

T = W.r tanφ

T = W.r tanα

T = W.r tan(φ + α)

T = W.r tan(φ - α)

T = W.r tanφ

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Theory of Machine
Angle of action of cam is defined as the angle

Moved by the cam from beginning of ascent to the termination of descent

Through which the cam rotates during the period in which the follower remains in the highest position

Of rotation of the cam for a definite displacement of the follower

Moved by the cam from the instant the follower begins to rise, till it reaches its highest position

Moved by the cam from beginning of ascent to the termination of descent

Through which the cam rotates during the period in which the follower remains in the highest position

Of rotation of the cam for a definite displacement of the follower

Moved by the cam from the instant the follower begins to rise, till it reaches its highest position

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Theory of Machine
The critical speed of a shaft with a disc supported in between is equal to the natural frequency of the system in

Transverse vibrations

Torsional vibrations

Longitudinal vibrations

All of these

Transverse vibrations

Torsional vibrations

Longitudinal vibrations

All of these

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Theory of Machine

Theory of Machine A friction circle is a circle drawn when a journal rotates in a bearing. Its radius depends upon the coefficient of friction and the

Theory of Machine In a rigid link OA, velocity of 'A' w.r.t. 'O' will be

Theory of Machine One end of a helical spring is fixed while the other end carries the load W which moves with simple harmonic motion. The frequency of motion is given by (where δ = Deflection of the spring)

Theory of Machine The factional torque for square thread at the mean radius r while raising load W is given by

Theory of Machine Angle of action of cam is defined as the angle

Theory of Machine The critical speed of a shaft with a disc supported in between is equal to the natural frequency of the system in

Theory of Machine
A friction circle is a circle drawn when a journal rotates in a bearing. Its radius depends upon the coefficient of friction and the

Theory of Machine
In a rigid link OA, velocity of 'A' w.r.t. 'O' will be

Theory of Machine
One end of a helical spring is fixed while the other end carries the load W which moves with simple harmonic motion. The frequency of motion is given by (where δ = Deflection of the spring)

Theory of Machine
The factional torque for square thread at the mean radius r while raising load W is given by

Theory of Machine
Angle of action of cam is defined as the angle

Theory of Machine
The critical speed of a shaft with a disc supported in between is equal to the natural frequency of the system in