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

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

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Theory of Machine
A flywheel is fitted to the crankshaft of an engine having W as the amount of indicated work per revolution and permissible limits of coefficient of fluctuation of energy and speed as CE and CS respectively. The kinetic energy of the flywheel is given by

W CS / 2CE

2 W CE / CS

W CE / CS

W CE / 2CS

W CS / 2CE

2 W CE / CS

W CE / CS

W CE / 2CS

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

Perpendicular to OA

Along AO

Parallel to OA

At 45° to OA

Perpendicular to OA

Along AO

Parallel to OA

At 45° to OA

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Theory of Machine
The relation l = (2/3).(j + 2) apply only to kinematic chains in which lower pairs are used. This may be used to kinematic chains in which higher pairs are used, but each higher pair may be taken as equivalent to

Two lower pairs and two additional links

One lower pair and two additional links

Any one of these

Two lower pairs and one additional link

Two lower pairs and two additional links

One lower pair and two additional links

Any one of these

Two lower pairs and one additional link

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Theory of Machine
For an isochronous Hartnell governor (where r₁ and r₂ = Maximum and minimum radius of rotation of balls respectively, S₁ and S₂ = Maximum and minimum force exerted on the sleeve respectively, and M = Mass on the sleeve)

(m.g + S₁)/(m.g + S₂) = r₁/r₂

S₂/S₁ = r₁/r₂

S₁/S₂ = r₁/r₂

(m.g - S₁)/(m.g - S₂) = r₂/r₁

(m.g + S₁)/(m.g + S₂) = r₁/r₂

S₂/S₁ = r₁/r₂

S₁/S₂ = r₁/r₂

(m.g - S₁)/(m.g - S₂) = r₂/r₁

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Theory of Machine
Which of the following mechanism is an approximate straight line motion mechanism?

Robert's mechanism

All of these

Grasshopper mechanism

Watt's mechanism

Robert's mechanism

All of these

Grasshopper mechanism

Watt's mechanism

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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 A flywheel is fitted to the crankshaft of an engine having W as the amount of indicated work per revolution and permissible limits of coefficient of fluctuation of energy and speed as CE and CS respectively. The kinetic energy of the flywheel is given by

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

Theory of Machine The relation l = (2/3).(j + 2) apply only to kinematic chains in which lower pairs are used. This may be used to kinematic chains in which higher pairs are used, but each higher pair may be taken as equivalent to

Theory of Machine For an isochronous Hartnell governor (where r₁ and r₂ = Maximum and minimum radius of rotation of balls respectively, S₁ and S₂ = Maximum and minimum force exerted on the sleeve respectively, and M = Mass on the sleeve)

Theory of Machine Which of the following mechanism is an approximate straight line motion mechanism?

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
A flywheel is fitted to the crankshaft of an engine having W as the amount of indicated work per revolution and permissible limits of coefficient of fluctuation of energy and speed as CE and CS respectively. The kinetic energy of the flywheel is given by

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

Theory of Machine
The relation l = (2/3).(j + 2) apply only to kinematic chains in which lower pairs are used. This may be used to kinematic chains in which higher pairs are used, but each higher pair may be taken as equivalent to

Theory of Machine
For an isochronous Hartnell governor (where r₁ and r₂ = Maximum and minimum radius of rotation of balls respectively, S₁ and S₂ = Maximum and minimum force exerted on the sleeve respectively, and M = Mass on the sleeve)

Theory of Machine
Which of the following mechanism is an approximate straight line motion mechanism?