A shaft carrying two rotors at its ends will have

Theory of Machine
A shaft carrying two rotors at its ends will have

Three nodes

No node

Two nodes

One node

Three nodes

No node

Two nodes

One node

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Theory of Machine
The component of the acceleration, perpendicular to the velocity of the particle, at the given instant is called

Tangential component

Radial component

Coriolis component

None of these

Tangential component

Radial component

Coriolis component

None of these

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Theory of Machine
The velocity of piston in a reciprocating steam engine is given by (where ω = Angular velocity of crank, r = Radius of crank pin circle, θ = Angle turned by crank from inner dead center, and n = Ratio of length of connecting rod to the radius of crank)

ωr [sin θ + (sin 2θ/n)]

ω²r [cos θ + (cos 2θ/n)]

ωr [cos θ + (cos 2θ/n)]

ω²r [sin θ + (sin 2θ/n)]

ωr [sin θ + (sin 2θ/n)]

ω²r [cos θ + (cos 2θ/n)]

ωr [cos θ + (cos 2θ/n)]

ω²r [sin θ + (sin 2θ/n)]

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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

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

90° 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

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

90° 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
A watt's governor can work satisfactorily at speeds from

60 to 80 r.p.m.

100 to 200 r.p.m.

80 to 100 r.p.m.

200 to 300 r.p.m.

60 to 80 r.p.m.

100 to 200 r.p.m.

80 to 100 r.p.m.

200 to 300 r.p.m.

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Theory of Machine
A thin circular disc is rolling with a uniform linear speed, along a straight path on a plane surface. Which of the following statement is correct in this regard?

The centre of the disc has centrifugal acceleration

All points of the disc have the same velocity

The centre of the disc has zero acceleration

The point on the disc making contact with the plane surface has zero acceleration

The centre of the disc has centrifugal acceleration

All points of the disc have the same velocity

The centre of the disc has zero acceleration

The point on the disc making contact with the plane surface has zero acceleration

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Theory of Machine

Theory of Machine A shaft carrying two rotors at its ends will have

Theory of Machine The component of the acceleration, perpendicular to the velocity of the particle, at the given instant is called

Theory of Machine The velocity of piston in a reciprocating steam engine is given by (where ω = Angular velocity of crank, r = Radius of crank pin circle, θ = Angle turned by crank from inner dead center, and n = Ratio of length of connecting rod to the radius of crank)

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 A watt's governor can work satisfactorily at speeds from

Theory of Machine A thin circular disc is rolling with a uniform linear speed, along a straight path on a plane surface. Which of the following statement is correct in this regard?

Theory of Machine
A shaft carrying two rotors at its ends will have

Theory of Machine
The component of the acceleration, perpendicular to the velocity of the particle, at the given instant is called

Theory of Machine
The velocity of piston in a reciprocating steam engine is given by (where ω = Angular velocity of crank, r = Radius of crank pin circle, θ = Angle turned by crank from inner dead center, and n = Ratio of length of connecting rod to the radius of crank)

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
A watt's governor can work satisfactorily at speeds from

Theory of Machine
A thin circular disc is rolling with a uniform linear speed, along a straight path on a plane surface. Which of the following statement is correct in this regard?