The motion of a shaft in a circular hole is an example of

Theory of Machine
The motion of a shaft in a circular hole is an example of

Completely constrained motion

Incompletely constrained motion

Successfully constrained motion

None of these

Completely constrained motion

Incompletely constrained motion

Successfully constrained motion

None of these

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Theory of Machine
The maximum fluctuation of energy is the

Sum of the maximum and minimum energies

Variations of energy above and below the mean resisting torque line

Ratio of the mean resisting torque to the work-done per cycle

Difference between the maximum and minimum energies

Sum of the maximum and minimum energies

Variations of energy above and below the mean resisting torque line

Ratio of the mean resisting torque to the work-done per cycle

Difference between the maximum and minimum energies

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Theory of Machine
Whirling speed of the shaft is the speed at which

Combination of transverse and longitudinal vibration occurs

Shaft tends to vibrate in longitudinal direction

Shaft tends to vibrate vigorously in transverse direction

Torsional vibrations occur

Combination of transverse and longitudinal vibration occurs

Shaft tends to vibrate in longitudinal direction

Shaft tends to vibrate vigorously in transverse direction

Torsional vibrations occur

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Theory of Machine
In considering friction of a V-thread, the virtual coefficient of friction (μ₁) is given by

μ₁ = μ/cos β

μ₁ = μ sin β

μ₁ = μ/sin β

μ₁ = μ cos β

μ₁ = μ/cos β

μ₁ = μ sin β

μ₁ = μ/sin β

μ₁ = μ cos β

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Theory of Machine
A body of weight W is required to move up the rough inclined plane whose angle of inclination with the horizontal is α. The effort applied parallel to the plane is given by (where μ = tan φ = Coefficient of friction between the plane and the body)

P = W (sin α + μ cos α)

P = W tan α

P = W (cos α + μ sin α)

P = W tan (α + φ)

P = W (sin α + μ cos α)

P = W tan α

P = W (cos α + μ sin α)

P = W tan (α + φ)

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Theory of Machine
The two links OA and OB are connected by a pin joint at O. If the link OA turns with angular velocity ω₁ rad/s in the clockwise direction and the link OB turns with angular velocity ω₂ rad/s in the anticlockwise direction, then the rubbing velocity at the pin joint O is (where r = Radius of the pin at O)

(ω₁ - ω₂) r

ω₁.ω₂.r

(ω₁ + ω₂) r

(ω₁ - ω₂) 2r

(ω₁ - ω₂) r

ω₁.ω₂.r

(ω₁ + ω₂) r

(ω₁ - ω₂) 2r

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Theory of Machine

Theory of Machine The motion of a shaft in a circular hole is an example of

Theory of Machine The maximum fluctuation of energy is the

Theory of Machine Whirling speed of the shaft is the speed at which

Theory of Machine In considering friction of a V-thread, the virtual coefficient of friction (μ₁) is given by

Theory of Machine A body of weight W is required to move up the rough inclined plane whose angle of inclination with the horizontal is α. The effort applied parallel to the plane is given by (where μ = tan φ = Coefficient of friction between the plane and the body)

Theory of Machine
The motion of a shaft in a circular hole is an example of

Theory of Machine
The maximum fluctuation of energy is the

Theory of Machine
Whirling speed of the shaft is the speed at which

Theory of Machine
In considering friction of a V-thread, the virtual coefficient of friction (μ₁) is given by

Theory of Machine
A body of weight W is required to move up the rough inclined plane whose angle of inclination with the horizontal is α. The effort applied parallel to the plane is given by (where μ = tan φ = Coefficient of friction between the plane and the body)