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)

(m.g + S₁)/(m.g + S₂) = r₁/r₂

S₂/S₁ = r₁/r₂

(m.g - S₁)/(m.g - S₂) = r₂/r₁

S₁/S₂ = r₁/r₂

(m.g + S₁)/(m.g + S₂) = r₁/r₂

S₂/S₁ = r₁/r₂

(m.g - S₁)/(m.g - S₂) = r₂/r₁

S₁/S₂ = r₁/r₂

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Theory of Machine
A rotor which is balanced statically but not dynamically is supported on two bearings L apart and at high speed of the rotor, reaction on the left bearing is R. The right side of the bearing is shifted to a new position 2L apart from the left bearing. At the same rotor speed, dynamic reaction on the left bearing in the new arrangement will

Become equal to R/4

Become equal to R/2

Become equal to 2R

Remain same as before

Become equal to R/4

Become equal to R/2

Become equal to 2R

Remain same as before

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Theory of Machine
In the below figure, PC is the connecting rod and OC is the crank making an angle θ with the line of stroke PO and rotates with uniform angular velocity at ω rad/s. The Klien's acceleration diagram for determining the acceleration of the piston P is shown by quadrilateral CQNO. The acceleration of the piston P with respect to the crank-pin C is given by

ω² × CN

ω² × QN

ω² × CO

ω² × NO

ω² × CN

ω² × QN

ω² × CO

ω² × NO

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Theory of Machine
Flexible coupling is used because

It prevents shock transmission and eliminates stress reversals

It is easy to engage and disengage

It transmits shocks gradually

It is easy to disassemble

It prevents shock transmission and eliminates stress reversals

It is easy to engage and disengage

It transmits shocks gradually

It is easy to disassemble

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Theory of Machine
The Hooke's joint consists of:

Four forks

One fork

Three forks

Two forks

Four forks

One fork

Three forks

Two forks

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Theory of Machine
The brake commonly used in railway trains is

Band brake

Shoe brake

Internal expanding brake

Band and block brake

Band brake

Shoe brake

Internal expanding brake

Band and block brake

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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 Flexible coupling is used because

Theory of Machine The Hooke's joint consists of:

Theory of Machine The brake commonly used in railway trains is

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
Flexible coupling is used because

Theory of Machine
The Hooke's joint consists of:

Theory of Machine
The brake commonly used in railway trains is