For dynamic balancing of a shaft

Theory of Machine
For dynamic balancing of a shaft

The net couple due to the dynamic forces acting on the shaft is equal to zero

Both (A) and (B)

None of these

The net dynamic force acting on the shaft is equal to zero

The net couple due to the dynamic forces acting on the shaft is equal to zero

Both (A) and (B)

None of these

The net dynamic force acting on the shaft is equal to zero

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Theory of Machine
Coriolis component acts

None of these

Somewhere in between above two

Along sliding surfaces

Perpendicular to sliding surfaces

None of these

Somewhere in between above two

Along sliding surfaces

Perpendicular to sliding surfaces

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Theory of Machine
A point B on a rigid link AB moves with respect to A with angular velocity ω rad/s. The radial component of the acceleration of B with respect to A, is (where vBA = Linear velocity of B with respect to A)

vBA × AB

v²BA /AB

vBA /AB

v²BA

vBA × AB

v²BA /AB

vBA /AB

v²BA

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Theory of Machine
The frictional torque transmitted in a truncated conical pivot bearing, considering uniform wear, is

(1/2). μ W cosec α (r₁ + r₂)

(2/3).μ W cosec α (r₁ + r₂)

(1/2). μ W cosec α [(r₁³ - r₂³)/(r₁² - r₂²)]

(2/3). μ W cosec α [(r₁³ - r₂³)/(r₁² - r₂²)]

(1/2). μ W cosec α (r₁ + r₂)

(2/3).μ W cosec α (r₁ + r₂)

(1/2). μ W cosec α [(r₁³ - r₂³)/(r₁² - r₂²)]

(2/3). μ W cosec α [(r₁³ - r₂³)/(r₁² - r₂²)]

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Theory of Machine
The two elements of a pair are said to form a higher pair, when they

Have a surface contact when in motion

Permit relative motion

Have a line or point contact when in motion

Are kept in contact by the action of external forces, when in motion

Have a surface contact when in motion

Permit relative motion

Have a line or point contact when in motion

Are kept in contact by the action of external forces, when in motion

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Theory of Machine
The radial distance of a tooth from the pitch circle to the bottom of the tooth is called

Clearance

Working depth

Addendum

Dedendum

Clearance

Working depth

Addendum

Dedendum

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Theory of Machine

Theory of Machine For dynamic balancing of a shaft

Theory of Machine Coriolis component acts

Theory of Machine A point B on a rigid link AB moves with respect to A with angular velocity ω rad/s. The radial component of the acceleration of B with respect to A, is (where vBA = Linear velocity of B with respect to A)

Theory of Machine The frictional torque transmitted in a truncated conical pivot bearing, considering uniform wear, is

Theory of Machine The two elements of a pair are said to form a higher pair, when they

Theory of Machine The radial distance of a tooth from the pitch circle to the bottom of the tooth is called

Theory of Machine
For dynamic balancing of a shaft

Theory of Machine
Coriolis component acts

Theory of Machine
A point B on a rigid link AB moves with respect to A with angular velocity ω rad/s. The radial component of the acceleration of B with respect to A, is (where vBA = Linear velocity of B with respect to A)

Theory of Machine
The frictional torque transmitted in a truncated conical pivot bearing, considering uniform wear, is

Theory of Machine
The two elements of a pair are said to form a higher pair, when they

Theory of Machine
The radial distance of a tooth from the pitch circle to the bottom of the tooth is called