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 - 5

l = 2p - 4

l = 2p - 2

l = 2p - 3

l = 2p - 5

l = 2p - 4

l = 2p - 2

l = 2p - 3

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Theory of Machine
In a four-bar chain it is required to give an oscillatory motion to the follower for a continuous rotation of the crank. For the lengths of 50 mm of crank and 70 mm of the follower, determine theoretical maximum length of coupler. The minimum length of the coupler will be

Slightly less than 45 mm

Slightly more than 45 mm

95 mm

45 mm

Slightly less than 45 mm

Slightly more than 45 mm

95 mm

45 mm

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Theory of Machine
The direction of Coriolis component of acceleration is the direction

Of relative velocity vector for the two coincident points rotated by 90° in the direction of the angular velocity of the rotation of the link

Along tangential acceleration

Along perpendicular to angular velocity

Along the centripetal acceleration

Of relative velocity vector for the two coincident points rotated by 90° in the direction of the angular velocity of the rotation of the link

Along tangential acceleration

Along perpendicular to angular velocity

Along the centripetal acceleration

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Theory of Machine
A disc is a spinning with an angular velocity ω rad/s about the axis of spin. The couple applied to the disc causing precession will be (where I = Mass moment of inertia of the disc, and ωP = Angular velocity of precession of the axis of spin)

Iω²

I ω ωP

(1/2).Iω²

(1/2). I ω ωP

Iω²

I ω ωP

(1/2).Iω²

(1/2). I ω ωP

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Theory of Machine
The two links OA and OB are connected by a pin joint at O. If the link OA turns with angular velocity ω₁ rad/s in the clockwise direction and the link OB turns with angular velocity ω₂ rad/s in the clockwise direction, then the rubbing velocity at the pin joint O is (where r = Radius of the pin at O)

(ω₁ - ω₂)2r

ω₁.ω₂.r

(ω₁ - ω₂)r

(ω₁ + ω₂)r

(ω₁ - ω₂)2r

ω₁.ω₂.r

(ω₁ - ω₂)r

(ω₁ + ω₂)r

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Theory of Machine
A pulley and belt in a belt drive form a

Turning pair

Rolling pair

Cylindrical pair

Sliding pair

Turning pair

Rolling pair

Cylindrical pair

Sliding pair

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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 In a four-bar chain it is required to give an oscillatory motion to the follower for a continuous rotation of the crank. For the lengths of 50 mm of crank and 70 mm of the follower, determine theoretical maximum length of coupler. The minimum length of the coupler will be

Theory of Machine The direction of Coriolis component of acceleration is the direction

Theory of Machine A disc is a spinning with an angular velocity ω rad/s about the axis of spin. The couple applied to the disc causing precession will be (where I = Mass moment of inertia of the disc, and ωP = Angular velocity of precession of the axis of spin)

Theory of Machine A pulley and belt in a belt drive form a

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

Theory of Machine
In a four-bar chain it is required to give an oscillatory motion to the follower for a continuous rotation of the crank. For the lengths of 50 mm of crank and 70 mm of the follower, determine theoretical maximum length of coupler. The minimum length of the coupler will be

Theory of Machine
The direction of Coriolis component of acceleration is the direction

Theory of Machine
A disc is a spinning with an angular velocity ω rad/s about the axis of spin. The couple applied to the disc causing precession will be (where I = Mass moment of inertia of the disc, and ωP = Angular velocity of precession of the axis of spin)

Theory of Machine
A pulley and belt in a belt drive form a