A body is said to be under forced vibrations, when

Theory of Machine
A body is said to be under forced vibrations, when

A body vibrates under the influence of external force

No external force acts on a body, after giving it an initial displacement

There is a reduction in amplitude after every cycle of vibration

None of these

A body vibrates under the influence of external force

No external force acts on a body, after giving it an initial displacement

There is a reduction in amplitude after every cycle of vibration

None of these

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Theory of Machine
Angle of ascent of cam is defined as the angle

Of rotation of the cam for a definite displacement of the follower

During which the follower returns to its initial position

Moved by the cam from the instant the follower begins to rise, till it reaches its highest position

Through which the cam rotates during the period in which the follower remains in highest position

Of rotation of the cam for a definite displacement of the follower

During which the follower returns to its initial position

Moved by the cam from the instant the follower begins to rise, till it reaches its highest position

Through which the cam rotates during the period in which the follower remains in highest position

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Theory of Machine
The frictional torque transmitted in a conical pivot bearing, considering uniform pressure, is (where R = Radius of shaft, and α = Semi-angle of the cone)

(3/4) μ W R cosecα

μ W R cosecα

(2/3) μ W R cosecα

(1/2) μ W R cosecα

(3/4) μ W R cosecα

μ W R cosecα

(2/3) μ W R cosecα

(1/2) μ W R cosecα

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Theory of Machine
The Kutzbach criterion for determining the number of degrees of freedom (n) is (where l = number of links, j = number of joints and h = number of higher pairs)

n = 2(l - 1) - 2j - h

n = 2(l - 1) - 3j - h

n = 3(l - 1) - 3j - h

n = 3(l - 1) - 2j - h

n = 2(l - 1) - 2j - h

n = 2(l - 1) - 3j - h

n = 3(l - 1) - 3j - h

n = 3(l - 1) - 2j - h

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Theory of Machine
Two heavy rotating masses are connected by shafts of lengths l₁, l₂ and l₃ and the corresponding diameters are d₁, d₂ and d₃. This system is reduced to a torsionally equivalent system having uniform diameter d = d₁ of the shaft. The equivalent length of the shaft is

l₁ + l₂ + l₃

l = l₁ + l₂.(d₁/d₂)⁴ + l₃.(d₁/d₃)⁴

l = l₁ + l₂.(d₁/d₂)³ + l₂.(d₁/d₃)³

(l₁ + l₂ + l₃)/3

l₁ + l₂ + l₃

l = l₁ + l₂.(d₁/d₂)⁴ + l₃.(d₁/d₃)⁴

l = l₁ + l₂.(d₁/d₂)³ + l₂.(d₁/d₃)³

(l₁ + l₂ + l₃)/3

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Theory of Machine
In a Hartnell governor, the lift of the sleeve is given by (where r₁ and r₂ = Max. and min. radii of rotation, x = Length of ball arm of the lever, and y = Length of sleeve arm of the lever)

(r₁ - r₂) (y/x)

(r₁ + r₂) (x/y)

(r₁ - r₂) (x/y)

(r₁ + r₂) (y/x)

(r₁ - r₂) (y/x)

(r₁ + r₂) (x/y)

(r₁ - r₂) (x/y)

(r₁ + r₂) (y/x)

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Theory of Machine

Theory of Machine A body is said to be under forced vibrations, when

Theory of Machine Angle of ascent of cam is defined as the angle

Theory of Machine The frictional torque transmitted in a conical pivot bearing, considering uniform pressure, is (where R = Radius of shaft, and α = Semi-angle of the cone)

Theory of Machine The Kutzbach criterion for determining the number of degrees of freedom (n) is (where l = number of links, j = number of joints and h = number of higher pairs)

Theory of Machine Two heavy rotating masses are connected by shafts of lengths l₁, l₂ and l₃ and the corresponding diameters are d₁, d₂ and d₃. This system is reduced to a torsionally equivalent system having uniform diameter d = d₁ of the shaft. The equivalent length of the shaft is

Theory of Machine In a Hartnell governor, the lift of the sleeve is given by (where r₁ and r₂ = Max. and min. radii of rotation, x = Length of ball arm of the lever, and y = Length of sleeve arm of the lever)

Theory of Machine
A body is said to be under forced vibrations, when

Theory of Machine
Angle of ascent of cam is defined as the angle

Theory of Machine
The frictional torque transmitted in a conical pivot bearing, considering uniform pressure, is (where R = Radius of shaft, and α = Semi-angle of the cone)

Theory of Machine
The Kutzbach criterion for determining the number of degrees of freedom (n) is (where l = number of links, j = number of joints and h = number of higher pairs)

Theory of Machine
Two heavy rotating masses are connected by shafts of lengths l₁, l₂ and l₃ and the corresponding diameters are d₁, d₂ and d₃. This system is reduced to a torsionally equivalent system having uniform diameter d = d₁ of the shaft. The equivalent length of the shaft is

Theory of Machine
In a Hartnell governor, the lift of the sleeve is given by (where r₁ and r₂ = Max. and min. radii of rotation, x = Length of ball arm of the lever, and y = Length of sleeve arm of the lever)