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

l = j + 4

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

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

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

l = j + 4

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

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

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

None of these

Tangential component

Radial component

Coriolis component

None of these

Tangential component

Radial component

Coriolis component

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Theory of Machine
An eccentric sheave pivoted at one point rotates and transmits oscillatory motion to a link whose one end is pivoted and other end is connected to it. This mechanism has

3 links

2 links

5 links

4 links

3 links

2 links

5 links

4 links

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Theory of Machine
Lower pairs are those which have

Point or line contact between the two elements when in motion

Surface contact between the two elements when in motion

Two elements that permit relative motion

Elements of pairs not held together mechanically

Point or line contact between the two elements when in motion

Surface contact between the two elements when in motion

Two elements that permit relative motion

Elements of pairs not held together mechanically

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Theory of Machine
A single degree of freedom system is given by, m × (d²x/dt²) + c × (dx/dt) + sx = F.cosω.t with usual notations. It represents

Forced vibration without damping

Forced vibration with damping

Free vibration with damping

Free vibration without damping

Forced vibration without damping

Forced vibration with damping

Free vibration with damping

Free vibration without damping

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Theory of Machine
The example of completely constrained motion is a

Motion of a shaft with collars at each end in a circular hole

Motion of a square bar in a square hole

All of these

Motion of a piston in the cylinder of a steam engine

Motion of a shaft with collars at each end in a circular hole

Motion of a square bar in a square hole

All of these

Motion of a piston in the cylinder of a steam engine

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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 component of the acceleration, parallel to the velocity of the particle, at the given instant is called

Theory of Machine An eccentric sheave pivoted at one point rotates and transmits oscillatory motion to a link whose one end is pivoted and other end is connected to it. This mechanism has

Theory of Machine Lower pairs are those which have

Theory of Machine A single degree of freedom system is given by, m × (d²x/dt²) + c × (dx/dt) + sx = F.cosω.t with usual notations. It represents

Theory of Machine The example of completely constrained motion is a

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

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

Theory of Machine
An eccentric sheave pivoted at one point rotates and transmits oscillatory motion to a link whose one end is pivoted and other end is connected to it. This mechanism has

Theory of Machine
Lower pairs are those which have

Theory of Machine
A single degree of freedom system is given by, m × (d²x/dt²) + c × (dx/dt) + sx = F.cosω.t with usual notations. It represents

Theory of Machine
The example of completely constrained motion is a