The relation between number of pairs (p) forming a kinematic chain and the number of links (l) is

Theory of Machine
The relation between number of pairs (p) forming a kinematic chain and the number of links (l) is

l = 2p - 2

l = 2p - 3

l = 2p - 5

l = 2p - 4

l = 2p - 2

l = 2p - 3

l = 2p - 5

l = 2p - 4

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Theory of Machine
The Whitworth quick return motion mechanism is formed in a slider crank chain when the

Slider is a fixed link

Smallest link is a fixed link

Longest link is a fixed link

Coupler link is fixed

Slider is a fixed link

Smallest link is a fixed link

Longest link is a fixed link

Coupler link is fixed

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Theory of Machine
The amplitude of vibration is always __________ the radius of the circle.

Less than

Equal to

None of these

Greater than

Less than

Equal to

None of these

Greater than

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Theory of Machine
Which of the following property of the instantaneous center is correct?

The two rigid links have no linear velocity relative to each other at the instantaneous centre.

A rigid link rotates instantaneously relative to another link at the instantaneous centre for the configuration of the mechanism considered.

The velocity of the instantaneous centre relative to any third rigid link is same whether the instantaneous centre is regarded as a point on the first rigid link or on the second rigid link.

All of these

The two rigid links have no linear velocity relative to each other at the instantaneous centre.

A rigid link rotates instantaneously relative to another link at the instantaneous centre for the configuration of the mechanism considered.

The velocity of the instantaneous centre relative to any third rigid link is same whether the instantaneous centre is regarded as a point on the first rigid link or on the second rigid link.

All of these

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Theory of Machine
The Coriolis component of acceleration exists whenever a point moves along a path that has

Gravitational acceleration

Tangential acceleration

Linear displacement

Rotational motion

Gravitational acceleration

Tangential acceleration

Linear displacement

Rotational motion

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Theory of Machine
The frequency of oscillation of a torsional pendulum is

r/2πk. √(g/l)

2πk/r. √(g/l)

r/2πk. √(l/g)

2πr/k. √(g/l)

r/2πk. √(g/l)

2πk/r. √(g/l)

r/2πk. √(l/g)

2πr/k. √(g/l)

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Theory of Machine

Theory of Machine The relation between number of pairs (p) forming a kinematic chain and the number of links (l) is

Theory of Machine The Whitworth quick return motion mechanism is formed in a slider crank chain when the

Theory of Machine The amplitude of vibration is always __________ the radius of the circle.

Theory of Machine Which of the following property of the instantaneous center is correct?

Theory of Machine The Coriolis component of acceleration exists whenever a point moves along a path that has

Theory of Machine The frequency of oscillation of a torsional pendulum is

Theory of Machine
The relation between number of pairs (p) forming a kinematic chain and the number of links (l) is

Theory of Machine
The Whitworth quick return motion mechanism is formed in a slider crank chain when the

Theory of Machine
The amplitude of vibration is always __________ the radius of the circle.

Theory of Machine
Which of the following property of the instantaneous center is correct?

Theory of Machine
The Coriolis component of acceleration exists whenever a point moves along a path that has

Theory of Machine
The frequency of oscillation of a torsional pendulum is