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

Radius of journal

Clearance between journal and bearing

Magnitude of the forces on journal

Angular velocity of journal

Radius of journal

Clearance between journal and bearing

Magnitude of the forces on journal

Angular velocity of journal

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Theory of Machine
In a cone pulley, if the sum of radii of the pulleys on the driving and driven shafts is constant, then

The drive is recommended depending upon the torque transmitted

Crossed belt drive is recommended

Open belt drive is recommended

Both open belt drive and crossed belt drive is recommended

The drive is recommended depending upon the torque transmitted

Crossed belt drive is recommended

Open belt drive is recommended

Both open belt drive and crossed belt drive is recommended

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Theory of Machine
The frictional torque transmitted in a conical pivot bearing, considering uniform pressure, is (where R = Radius of shaft, and α = Semi-angle of the cone)

μ W R cosecα

(1/2) μ W R cosecα

(2/3) μ W R cosecα

(3/4) μ W R cosecα

μ W R cosecα

(1/2) μ W R cosecα

(2/3) μ W R cosecα

(3/4) μ W R cosecα

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Theory of Machine
The contact ratio is given by

(Length of the arc of approach)/cosφ

(Length of path of recess)/(Circular pitch)

(Length of the arc of contact)/(Circular pitch)

(Length of the path of approach)/(Circular pitch)

(Length of the arc of approach)/cosφ

(Length of path of recess)/(Circular pitch)

(Length of the arc of contact)/(Circular pitch)

(Length of the path of approach)/(Circular pitch)

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Theory of Machine
The example of higher pair is

Gears, cams

Belt, rope and chain drives

Ball and roller bearings

All of these

Gears, cams

Belt, rope and chain drives

Ball and roller bearings

All of these

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Theory of Machine
The swaying couple is due to the

Secondary unbalanced force

Partial balancing

Primary unbalanced force

Two cylinders of locomotive

Secondary unbalanced force

Partial balancing

Primary unbalanced force

Two cylinders of locomotive

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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 cone pulley, if the sum of radii of the pulleys on the driving and driven shafts is constant, then

Theory of Machine The frictional torque transmitted in a conical pivot bearing, considering uniform pressure, is (where R = Radius of shaft, and α = Semi-angle of the cone)

Theory of Machine The contact ratio is given by

Theory of Machine The example of higher pair is

Theory of Machine The swaying couple is due to 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

Theory of Machine
In a cone pulley, if the sum of radii of the pulleys on the driving and driven shafts is constant, then

Theory of Machine
The frictional torque transmitted in a conical pivot bearing, considering uniform pressure, is (where R = Radius of shaft, and α = Semi-angle of the cone)

Theory of Machine
The contact ratio is given by

Theory of Machine
The example of higher pair is

Theory of Machine
The swaying couple is due to the