For an involute gear, the ratio of base circle radius and pitch circle radius is equal to

Theory of Machine
For an involute gear, the ratio of base circle radius and pitch circle radius is equal to

cosecφ

sinφ

secφ

cosφ

cosecφ

sinφ

secφ

cosφ

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

During which the follower returns to its initial position

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

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

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

During which the follower returns to its initial position

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

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

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 acceleration of a particle at any instant has two components i.e. radial component and tangential component. These two components will be

Inclined at 45°

Opposite to each other

Parallel to each other

Perpendicular to each other

Inclined at 45°

Opposite to each other

Parallel to each other

Perpendicular to each other

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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

I₂/G

I₂/G²

G².I₂

G.I₂

I₂/G

I₂/G²

G².I₂

G.I₂

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Theory of Machine
The natural frequency of free transverse vibrations due to uniformly distributed load acting over a simply supported shaft is (where δS = Static deflection of simply supported shaft due to uniformly distributed load)

0.4985/ √δS

0.571/ √δS

0.5615/ √δS

0.6253/ √δS

0.4985/ √δS

0.571/ √δS

0.5615/ √δS

0.6253/ √δS

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Theory of Machine
The retardation of a flat faced follower when it has contact at the apex of the nose of a circular arc cam, is given by (where OQ = Distance between the centre of circular flank and centre of nose)

ω² × OQ

ω² × OQ sinθ

ω² × OQ tanθ

ω² × OQ cosθ

ω² × OQ

ω² × OQ sinθ

ω² × OQ tanθ

ω² × OQ cosθ

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Theory of Machine

Theory of Machine For an involute gear, the ratio of base circle radius and pitch circle radius is equal to

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

Theory of Machine The acceleration of a particle at any instant has two components i.e. radial component and tangential component. These two components will be

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 natural frequency of free transverse vibrations due to uniformly distributed load acting over a simply supported shaft is (where δS = Static deflection of simply supported shaft due to uniformly distributed load)

Theory of Machine The retardation of a flat faced follower when it has contact at the apex of the nose of a circular arc cam, is given by (where OQ = Distance between the centre of circular flank and centre of nose)

Theory of Machine
For an involute gear, the ratio of base circle radius and pitch circle radius is equal to

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

Theory of Machine
The acceleration of a particle at any instant has two components i.e. radial component and tangential component. These two components will be

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 natural frequency of free transverse vibrations due to uniformly distributed load acting over a simply supported shaft is (where δS = Static deflection of simply supported shaft due to uniformly distributed load)

Theory of Machine
The retardation of a flat faced follower when it has contact at the apex of the nose of a circular arc cam, is given by (where OQ = Distance between the centre of circular flank and centre of nose)