The velocity of the belt for maximum power is (where m = Mass of the belt in kg per meter length)

Theory of Machine
The velocity of the belt for maximum power is (where m = Mass of the belt in kg per meter length)

T/3

(T.g)/3

√(3m/T)

√(T/3m)

T/3

(T.g)/3

√(3m/T)

√(T/3m)

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Theory of Machine
The Coriolis component of acceleration acts

Along the sliding surface

At 45° to the sliding surface

Parallel to the sliding surface

Perpendicular to the sliding surface

Along the sliding surface

At 45° to the sliding surface

Parallel to the sliding surface

Perpendicular to the sliding surface

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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

Radius of journal

Angular velocity of journal

Clearance between journal and bearing

Magnitude of the forces on journal

Radius of journal

Angular velocity of journal

Clearance between journal and bearing

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Theory of Machine
In locomotives, the ratio of the connecting rod length to me crank radius is kept very large in order to

Minimize the effect of secondary forces

Have perfect balancing

Minimize the effect of primary forces

To start the locomotive quickly

Minimize the effect of secondary forces

Have perfect balancing

Minimize the effect of primary forces

To start the locomotive quickly

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Theory of Machine
The train value of a gear train is

Always greater than unity

Reciprocal of velocity ratio of a gear train

Equal to velocity ratio of a gear train

Always less than unity

Always greater than unity

Reciprocal of velocity ratio of a gear train

Equal to velocity ratio of a gear train

Always less than unity

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Theory of Machine
Bifilar suspension method is used to find the

Moment of inertia of the body

Angular acceleration of the body

Periodic time of the body

Frequency of vibration of the body

Moment of inertia of the body

Angular acceleration of the body

Periodic time of the body

Frequency of vibration of the body

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Theory of Machine

Theory of Machine The velocity of the belt for maximum power is (where m = Mass of the belt in kg per meter length)

Theory of Machine The Coriolis component of acceleration acts

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 locomotives, the ratio of the connecting rod length to me crank radius is kept very large in order to

Theory of Machine The train value of a gear train is

Theory of Machine Bifilar suspension method is used to find the

Theory of Machine
The velocity of the belt for maximum power is (where m = Mass of the belt in kg per meter length)

Theory of Machine
The Coriolis component of acceleration acts

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 locomotives, the ratio of the connecting rod length to me crank radius is kept very large in order to

Theory of Machine
The train value of a gear train is

Theory of Machine
Bifilar suspension method is used to find the