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 - 4

l = 2p - 2

l = 2p - 5

l = 2p - 3

l = 2p - 4

l = 2p - 2

l = 2p - 5

l = 2p - 3

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Theory of Machine
Two heavy rotating masses are connected by shafts of lengths l₁, l₂ and l₃ and the corresponding diameters are d₁, d₂ and d₃. This system is reduced to a torsionally equivalent system having uniform diameter d = d₁ of the shaft. The equivalent length of the shaft is

l = l₁ + l₂.(d₁/d₂)⁴ + l₃.(d₁/d₃)⁴

(l₁ + l₂ + l₃)/3

l₁ + l₂ + l₃

l = l₁ + l₂.(d₁/d₂)³ + l₂.(d₁/d₃)³

l = l₁ + l₂.(d₁/d₂)⁴ + l₃.(d₁/d₃)⁴

(l₁ + l₂ + l₃)/3

l₁ + l₂ + l₃

l = l₁ + l₂.(d₁/d₂)³ + l₂.(d₁/d₃)³

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Theory of Machine
The Ackermann steering mechanism is preferred to the Davis type in automobiles because

The former is most rigid

The former is having turning pair

The former is most economical

The former is mathematically accurate

The former is most rigid

The former is having turning pair

The former is most economical

The former is mathematically accurate

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Theory of Machine
A torsional system with discs of moment of inertia I₁ and I₂ as shown in the below figure, is gear driven such that the ratio of speed of shaft B to shaft A is 'G'. Neglecting the inertia of gears, the equivalent inertia of disc on shaft B at the speed of shaft A is equal to

G².I₂

G.I₂

I₂/G

I₂/G²

G².I₂

G.I₂

I₂/G

I₂/G²

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Theory of Machine
Power of a governor is the

None of these

Work-done at the sleeve for maximum equilibrium speed

Mean force exerted at the sleeve for a given percentage change of speed

Mean force exerted at the sleeve for maximum equilibrium speed

None of these

Work-done at the sleeve for maximum equilibrium speed

Mean force exerted at the sleeve for a given percentage change of speed

Mean force exerted at the sleeve for maximum equilibrium speed

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Theory of Machine
The size of cam depends upon

Base circle

Pitch curve

Pitch circle

Prime circle

Base circle

Pitch curve

Pitch circle

Prime circle

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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 Two heavy rotating masses are connected by shafts of lengths l₁, l₂ and l₃ and the corresponding diameters are d₁, d₂ and d₃. This system is reduced to a torsionally equivalent system having uniform diameter d = d₁ of the shaft. The equivalent length of the shaft is

Theory of Machine The Ackermann steering mechanism is preferred to the Davis type in automobiles because

Theory of Machine A torsional system with discs of moment of inertia I₁ and I₂ as shown in the below figure, is gear driven such that the ratio of speed of shaft B to shaft A is 'G'. Neglecting the inertia of gears, the equivalent inertia of disc on shaft B at the speed of shaft A is equal to

Theory of Machine Power of a governor is the

Theory of Machine The size of cam depends upon

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

Theory of Machine
Two heavy rotating masses are connected by shafts of lengths l₁, l₂ and l₃ and the corresponding diameters are d₁, d₂ and d₃. This system is reduced to a torsionally equivalent system having uniform diameter d = d₁ of the shaft. The equivalent length of the shaft is

Theory of Machine
The Ackermann steering mechanism is preferred to the Davis type in automobiles because

Theory of Machine
A torsional system with discs of moment of inertia I₁ and I₂ as shown in the below figure, is gear driven such that the ratio of speed of shaft B to shaft A is 'G'. Neglecting the inertia of gears, the equivalent inertia of disc on shaft B at the speed of shaft A is equal to

Theory of Machine
Power of a governor is the

Theory of Machine
The size of cam depends upon