The velocity of the belt for maximum power is (where m = Mass of the belt in kg per meter length)

Theory of Machine
The velocity of the belt for maximum power is (where m = Mass of the belt in kg per meter length)

T/3

√(T/3m)

(T.g)/3

√(3m/T)

T/3

√(T/3m)

(T.g)/3

√(3m/T)

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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)

S₁/S₂ = r₁/r₂

S₂/S₁ = r₁/r₂

(m.g + S₁)/(m.g + S₂) = r₁/r₂

(m.g - S₁)/(m.g - S₂) = r₂/r₁

S₁/S₂ = r₁/r₂

S₂/S₁ = r₁/r₂

(m.g + S₁)/(m.g + S₂) = r₁/r₂

(m.g - S₁)/(m.g - S₂) = r₂/r₁

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Theory of Machine
Which of the following statement is correct as regard to the difference between a machine and a structure?

All of these

The links of a machine may transmit both power and motion, whereas the members of a structure transmit forces only

A machine transforms the available energy into some useful work, whereas in a structure no energy is transformed into useful work

The parts of a machine move relative to one another, whereas the members of a structure do not move relative to one another

All of these

The links of a machine may transmit both power and motion, whereas the members of a structure transmit forces only

A machine transforms the available energy into some useful work, whereas in a structure no energy is transformed into useful work

The parts of a machine move relative to one another, whereas the members of a structure do not move relative to one another

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Theory of Machine
Oldham's coupling is the

Second inversion of double slider crank chain

Third inversion of double slider crank chain

Third inversion of slider crank chain

Second inversion of single slider crank chain

Second inversion of double slider crank chain

Third inversion of double slider crank chain

Third inversion of slider crank chain

Second inversion of single slider crank chain

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Theory of Machine
The working depth of a gear is the radial distance from the

Pitch circle to the top of a tooth

Pitch circle to the bottom of a tooth

Addendum circle to the clearance circle

Top of a tooth to the bottom of a tooth

Pitch circle to the top of a tooth

Pitch circle to the bottom of a tooth

Addendum circle to the clearance circle

Top of a tooth to the bottom of a tooth

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Theory of Machine
A spring controlled governor is said to be stable if the controlling force line when produced intersects the Y-axis

Above the origin

Below the origin

Any one of these

At the origin

Above the origin

Below the origin

Any one of these

At the origin

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Theory of Machine

Theory of Machine The velocity of the belt for maximum power is (where m = Mass of the belt in kg per meter length)

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 Which of the following statement is correct as regard to the difference between a machine and a structure?

Theory of Machine Oldham's coupling is the

Theory of Machine The working depth of a gear is the radial distance from the

Theory of Machine A spring controlled governor is said to be stable if the controlling force line when produced intersects the Y-axis

Theory of Machine
The velocity of the belt for maximum power is (where m = Mass of the belt in kg per meter length)

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
Which of the following statement is correct as regard to the difference between a machine and a structure?

Theory of Machine
Oldham's coupling is the

Theory of Machine
The working depth of a gear is the radial distance from the

Theory of Machine
A spring controlled governor is said to be stable if the controlling force line when produced intersects the Y-axis