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
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)

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

(m.g + S₁)/(m.g + S₂) = r₁/r₂

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Theory of Machine
The essential condition of placing the two masses, so that the system becomes dynamically equivalent, is (where l₁ and l₂ = Distance of two masses from the centre of gravity of the body, and kG = Radius of gyration of the body)

l₁ = kG

l₁l₂ = kG

l₁l₂ = kG²

l₂ = kG

l₁ = kG

l₁l₂ = kG

l₁l₂ = kG²

l₂ = kG

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Theory of Machine
The instantaneous center of a rigid thin disc rolling on a plane rigid surface is located at

The point of contact

The point on the circumference situated vertically opposite to the contact point

An infinite distance on the plane surface

The center of the disc

The point of contact

The point on the circumference situated vertically opposite to the contact point

An infinite distance on the plane surface

The center of the disc

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Theory of Machine
In higher pair, the relative motion is

Purely sliding

Purely rotary

Purely turning

Combination of sliding and turning

Purely sliding

Purely rotary

Purely turning

Combination of sliding and turning

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Theory of Machine
Inertia force acts

None of the listed here

Along the direction of acceleration force

Perpendicular to the acceleration force

Opposite to the direction of acceleration force

None of the listed here

Along the direction of acceleration force

Perpendicular to the acceleration force

Opposite to the direction of acceleration force

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Theory of Machine
The Hooke's joint consists of:

Three forks

Two forks

Four forks

One fork

Three forks

Two forks

Four forks

One fork

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Theory of Machine

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 The essential condition of placing the two masses, so that the system becomes dynamically equivalent, is (where l₁ and l₂ = Distance of two masses from the centre of gravity of the body, and kG = Radius of gyration of the body)

Theory of Machine The instantaneous center of a rigid thin disc rolling on a plane rigid surface is located at

Theory of Machine In higher pair, the relative motion is

Theory of Machine Inertia force acts

Theory of Machine The Hooke's joint consists of:

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
The essential condition of placing the two masses, so that the system becomes dynamically equivalent, is (where l₁ and l₂ = Distance of two masses from the centre of gravity of the body, and kG = Radius of gyration of the body)

Theory of Machine
The instantaneous center of a rigid thin disc rolling on a plane rigid surface is located at

Theory of Machine
In higher pair, the relative motion is

Theory of Machine
Inertia force acts

Theory of Machine
The Hooke's joint consists of: