In S.H.M., acceleration is proportional to

Theory of Machine
In S.H.M., acceleration is proportional to

Displacement

Rate of change of velocity

Velocity

All of these

Displacement

Rate of change of velocity

Velocity

All of these

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Theory of Machine
The absolute acceleration of any point ‘P’ in a link about center of rotation ‘O’ is

Perpendicular to PO

At 45° to PO

None of the listed here

Along PO

Perpendicular to PO

At 45° to PO

None of the listed here

Along PO

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Theory of Machine
The tractive force in a locomotive with two cylinders is given by (where c = Fraction of reciprocating parts per cylinder, m = Mass of reciprocating parts, ω = Angular speed of crank, r = Radius of crank, and θ = Angle of inclination of crank to the line of stroke)

m.ω².r cosθ

(1 - c).m.ω².r (cosθ - sinθ)

m.ω².r (cosθ - sinθ)

m.ω².r sinθ

m.ω².r cosθ

(1 - c).m.ω².r (cosθ - sinθ)

m.ω².r (cosθ - sinθ)

m.ω².r sinθ

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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 tanθ

ω² × OQ cosθ

ω² × OQ sinθ

ω² × OQ

ω² × OQ tanθ

ω² × OQ cosθ

ω² × OQ sinθ

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Theory of Machine
The danger of breakage and vibration is maximum

Above the critical speed

Near the critical speed

Below the critical speed

None of these

Above the critical speed

Near the critical speed

Below the critical speed

None of these

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Theory of Machine
In a hydrodynamic journal bearing, there is

A very thin film of lubricant between the journal and the bearing such that there is contact between the journal and the bearing

A forced lubricant between the journal and the bearing

A thick film of lubricant between the journal and the bearing

No lubricant between the journal and the bearing

A very thin film of lubricant between the journal and the bearing such that there is contact between the journal and the bearing

A forced lubricant between the journal and the bearing

A thick film of lubricant between the journal and the bearing

No lubricant between the journal and the bearing

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Theory of Machine

Theory of Machine In S.H.M., acceleration is proportional to

Theory of Machine The absolute acceleration of any point ‘P’ in a link about center of rotation ‘O’ is

Theory of Machine The tractive force in a locomotive with two cylinders is given by (where c = Fraction of reciprocating parts per cylinder, m = Mass of reciprocating parts, ω = Angular speed of crank, r = Radius of crank, and θ = Angle of inclination of crank to the line of stroke)

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 The danger of breakage and vibration is maximum

Theory of Machine In a hydrodynamic journal bearing, there is

Theory of Machine
In S.H.M., acceleration is proportional to

Theory of Machine
The absolute acceleration of any point ‘P’ in a link about center of rotation ‘O’ is

Theory of Machine
The tractive force in a locomotive with two cylinders is given by (where c = Fraction of reciprocating parts per cylinder, m = Mass of reciprocating parts, ω = Angular speed of crank, r = Radius of crank, and θ = Angle of inclination of crank to the line of stroke)

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
The danger of breakage and vibration is maximum

Theory of Machine
In a hydrodynamic journal bearing, there is