A friction circle is a circle drawn when a journal rotates in a bearing. Its radius depends upon the coefficient of friction and the

Theory of Machine
A friction circle is a circle drawn when a journal rotates in a bearing. Its radius depends upon the coefficient of friction and the

Clearance between journal and bearing

Angular velocity of journal

Radius of journal

Magnitude of the forces on journal

Clearance between journal and bearing

Angular velocity of journal

Radius of journal

Magnitude of the forces on journal

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Theory of Machine
The natural frequency of free torsional vibrations of a shaft is equal to (where q = Torsional stiffness of the shaft, and I = Mass moment of inertia of the disc attached at the end of a shaft)

1/2π

2π. √(q/I)

(1/2π). √(q/I)

2π qI

1/2π

2π. √(q/I)

(1/2π). √(q/I)

2π qI

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Theory of Machine
For a kinematic chain to be considered as mechanism

One link should be fixed

There is no such criterion

None of the links should be fixed

Two links should be fixed

One link should be fixed

There is no such criterion

None of the links should be fixed

Two links should be fixed

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Theory of Machine
In order to facilitate starting of locomotive in any position, the cranks of a locomotive with two cylinders, are placed at

120° to each other

45° to each other

180° to each other

90° to each other

120° to each other

45° to each other

180° to each other

90° to each other

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Theory of Machine
A shaft has two heavy rotors mounted on it. The transverse natural frequencies, considering each of the rotor separately, are 100 Hz and 200 Hz respectively. The lowest critical speed is

12,000 r.p.m.

5,367 r.p.m.

6,000 r.p.m.

9,360 r.p.m.

12,000 r.p.m.

5,367 r.p.m.

6,000 r.p.m.

9,360 r.p.m.

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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

Theory of Machine A friction circle is a circle drawn when a journal rotates in a bearing. Its radius depends upon the coefficient of friction and the

Theory of Machine The natural frequency of free torsional vibrations of a shaft is equal to (where q = Torsional stiffness of the shaft, and I = Mass moment of inertia of the disc attached at the end of a shaft)

Theory of Machine For a kinematic chain to be considered as mechanism

Theory of Machine In order to facilitate starting of locomotive in any position, the cranks of a locomotive with two cylinders, are placed at

Theory of Machine A shaft has two heavy rotors mounted on it. The transverse natural frequencies, considering each of the rotor separately, are 100 Hz and 200 Hz respectively. The lowest critical speed is

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
A friction circle is a circle drawn when a journal rotates in a bearing. Its radius depends upon the coefficient of friction and the

Theory of Machine
The natural frequency of free torsional vibrations of a shaft is equal to (where q = Torsional stiffness of the shaft, and I = Mass moment of inertia of the disc attached at the end of a shaft)

Theory of Machine
For a kinematic chain to be considered as mechanism

Theory of Machine
In order to facilitate starting of locomotive in any position, the cranks of a locomotive with two cylinders, are placed at

Theory of Machine
A shaft has two heavy rotors mounted on it. The transverse natural frequencies, considering each of the rotor separately, are 100 Hz and 200 Hz respectively. The lowest critical speed is

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