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

Angular velocity of journal

Magnitude of the forces on journal

Clearance between journal and bearing

Radius of journal

Angular velocity of journal

Magnitude of the forces on journal

Clearance between journal and bearing

Radius of journal

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Theory of Machine
The Klein's diagram is useful to find

Displacement of various parts

Angular acceleration of various parts

Acceleration of various parts

Velocity of various parts

Displacement of various parts

Angular acceleration of various parts

Acceleration of various parts

Velocity of various parts

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Theory of Machine
The sense of Coriolis component 2 ωv is same as that of the relative velocity vector v rotated at

90° in the direction of rotation of the link containing the path

45° in the direction of rotation of the link containing the path

45° in the direction opposite to the rotation of the link containing the path

180° in the direction opposite to the rotation of the link containing the path

90° in the direction of rotation of the link containing the path

45° in the direction of rotation of the link containing the path

45° in the direction opposite to the rotation of the link containing the path

180° in the direction opposite to the rotation of the link containing the path

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Theory of Machine
The velocity of the reciprocating roller follower when it has contact with the straight flanks of the tangent cam, is given by (where ω = Angular velocity of the cam shaft)

ω (r₁ r₂) cosθ

ω (r₁ r₂) sinθ

ω (r₁ + r₂) sinθ sec2θ

ω (r₁ + r₂) cosθ cosec2θ

ω (r₁ r₂) cosθ

ω (r₁ r₂) sinθ

ω (r₁ + r₂) sinθ sec2θ

ω (r₁ + r₂) cosθ cosec2θ

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Theory of Machine
When a mass of a critically damped single degree of freedom system is deflected from its equilibrium position and released, then it will

Return to equilibrium position without oscillation

Oscillate with constant amplitude

Oscillate with increasing time period

Oscillate with decreasing amplitude

Return to equilibrium position without oscillation

Oscillate with constant amplitude

Oscillate with increasing time period

Oscillate with decreasing amplitude

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Theory of Machine
One end of a helical spring is fixed while the other end carries the load W which moves with simple harmonic motion. The frequency of motion is given by (where δ = Deflection of the spring)

1/2π. √(δ/g)

2π. √(g/δ)

2π. √(δ/g)

1/2π. √(g/δ)

1/2π. √(δ/g)

2π. √(g/δ)

2π. √(δ/g)

1/2π. √(g/δ)

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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 Klein's diagram is useful to find

Theory of Machine The sense of Coriolis component 2 ωv is same as that of the relative velocity vector v rotated at

Theory of Machine The velocity of the reciprocating roller follower when it has contact with the straight flanks of the tangent cam, is given by (where ω = Angular velocity of the cam shaft)

Theory of Machine When a mass of a critically damped single degree of freedom system is deflected from its equilibrium position and released, then it will

Theory of Machine One end of a helical spring is fixed while the other end carries the load W which moves with simple harmonic motion. The frequency of motion is given by (where δ = Deflection of the spring)

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 Klein's diagram is useful to find

Theory of Machine
The sense of Coriolis component 2 ωv is same as that of the relative velocity vector v rotated at

Theory of Machine
The velocity of the reciprocating roller follower when it has contact with the straight flanks of the tangent cam, is given by (where ω = Angular velocity of the cam shaft)

Theory of Machine
When a mass of a critically damped single degree of freedom system is deflected from its equilibrium position and released, then it will

Theory of Machine
One end of a helical spring is fixed while the other end carries the load W which moves with simple harmonic motion. The frequency of motion is given by (where δ = Deflection of the spring)