The relation between number of links (l) and number of joints (j) in a kinematic chain is

Theory of Machine
The relation between number of links (l) and number of joints (j) in a kinematic chain is

l = (2/3).(j + 2)

l = (3/4).(j + 3)

l = (1/2).(j + 2)

l = j + 4

l = (2/3).(j + 2)

l = (3/4).(j + 3)

l = (1/2).(j + 2)

l = j + 4

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Theory of Machine
The frictional torque transmitted in a flat collar bearing, considering uniform wear, is (where r₁ and r₂ = External and internal radii of collar respectively)

(1/2) μ W [(r₁³ - r₂³)/(r₁² - r₂²)]

(1/2) μ W (r₁ + r₂)

(2/3) μ W (r₁ + r₂)

(2/3) μ W [(r₁³ - r₂³)/(r₁² - r₂²)]

(1/2) μ W [(r₁³ - r₂³)/(r₁² - r₂²)]

(1/2) μ W (r₁ + r₂)

(2/3) μ W (r₁ + r₂)

(2/3) μ W [(r₁³ - r₂³)/(r₁² - r₂²)]

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Theory of Machine
In a hydrodynamic journal bearing, there is

A very thin film of lubricant between the journal and the bearing such that there is contact between the journal and the bearing

A thick film of lubricant between the journal and the bearing

No lubricant between the journal and the bearing

A forced lubricant between the journal and the bearing

A very thin film of lubricant between the journal and the bearing such that there is contact between the journal and the bearing

A thick film of lubricant between the journal and the bearing

No lubricant between the journal and the bearing

A forced lubricant between the journal and the bearing

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Theory of Machine
In a radial cam, the follower moves

In any direction irrespective of the cam axis

In a direction perpendicular to the cam axis

Along the cam axis

In a direction parallel to the cam axis

In any direction irrespective of the cam axis

In a direction perpendicular to the cam axis

Along the cam axis

In a direction parallel to the cam axis

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Theory of Machine
The critical speed of a shaft with a disc supported in between is equal to the natural frequency of the system in

All of these

Longitudinal vibrations

Torsional vibrations

Transverse vibrations

All of these

Longitudinal vibrations

Torsional vibrations

Transverse vibrations

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Theory of Machine
In locomotives, the ratio of the connecting rod length to me crank radius is kept very large in order to

To start the locomotive quickly

Minimize the effect of primary forces

Have perfect balancing

Minimize the effect of secondary forces

To start the locomotive quickly

Minimize the effect of primary forces

Have perfect balancing

Minimize the effect of secondary forces

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Theory of Machine

Theory of Machine The relation between number of links (l) and number of joints (j) in a kinematic chain is

Theory of Machine The frictional torque transmitted in a flat collar bearing, considering uniform wear, is (where r₁ and r₂ = External and internal radii of collar respectively)

Theory of Machine In a hydrodynamic journal bearing, there is

Theory of Machine In a radial cam, the follower moves

Theory of Machine The critical speed of a shaft with a disc supported in between is equal to the natural frequency of the system in

Theory of Machine In locomotives, the ratio of the connecting rod length to me crank radius is kept very large in order to

Theory of Machine
The relation between number of links (l) and number of joints (j) in a kinematic chain is

Theory of Machine
The frictional torque transmitted in a flat collar bearing, considering uniform wear, is (where r₁ and r₂ = External and internal radii of collar respectively)

Theory of Machine
In a hydrodynamic journal bearing, there is

Theory of Machine
In a radial cam, the follower moves

Theory of Machine
The critical speed of a shaft with a disc supported in between is equal to the natural frequency of the system in

Theory of Machine
In locomotives, the ratio of the connecting rod length to me crank radius is kept very large in order to