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.g)/3

√(T/3m)

√(3m/T)

T/3

(T.g)/3

√(T/3m)

√(3m/T)

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Theory of Machine
The maximum fluctuation of energy is the

Difference between the maximum and minimum energies

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

Sum of the maximum and minimum energies

Variations of energy above and below the mean resisting torque line

Difference between the maximum and minimum energies

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

Sum of the maximum and minimum energies

Variations of energy above and below the mean resisting torque line

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Theory of Machine
The ratio of height of Porter governor (when length of arms and links are equal) to the height of Watt's governor is (where m = Mass of the ball, and M = Mass on the sleeve)

m/(m + M)

M/(m + M)

(m + M)/M

(m + M)/m

m/(m + M)

M/(m + M)

(m + M)/M

(m + M)/m

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Theory of Machine
The velocity of any point in mechanism relative to any other point on the mechanism on velocity polygon is represented by the line

At 45° to line as per (A)

Not possible to determine with these data

Joining the corresponding points

Perpendicular to line as per (A)

At 45° to line as per (A)

Not possible to determine with these data

Joining the corresponding points

Perpendicular to line as per (A)

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Theory of Machine
In locomotives, the ratio of the connecting rod length to me crank radius is kept very large in order to

Minimize the effect of primary forces

Have perfect balancing

Minimize the effect of secondary forces

To start the locomotive quickly

Minimize the effect of primary forces

Have perfect balancing

Minimize the effect of secondary forces

To start the locomotive quickly

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

(1/2) μ W R cosecα

μ W R cosecα

(2/3) μ W R cosecα

(3/4) μ W R cosecα

(1/2) μ W R cosecα

μ W R cosecα

(2/3) μ W R cosecα

(3/4) μ W R cosecα

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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 The maximum fluctuation of energy is the

Theory of Machine The ratio of height of Porter governor (when length of arms and links are equal) to the height of Watt's governor is (where m = Mass of the ball, and M = Mass on the sleeve)

Theory of Machine The velocity of any point in mechanism relative to any other point on the mechanism on velocity polygon is represented by the line

Theory of Machine In locomotives, the ratio of the connecting rod length to me crank radius is kept very large in order to

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

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
The maximum fluctuation of energy is the

Theory of Machine
The ratio of height of Porter governor (when length of arms and links are equal) to the height of Watt's governor is (where m = Mass of the ball, and M = Mass on the sleeve)

Theory of Machine
The velocity of any point in mechanism relative to any other point on the mechanism on velocity polygon is represented by the line

Theory of Machine
In locomotives, the ratio of the connecting rod length to me crank radius is kept very large in order to

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