Which one of the following can completely balance several masses revolving in different planes on a shaft?

Theory of Machine
Which one of the following can completely balance several masses revolving in different planes on a shaft?

Two equal masses in any two planes

A single mass in one of the planes of the revolving masses

Two masses in any two planes

A single mass in different planes

Two equal masses in any two planes

A single mass in one of the planes of the revolving masses

Two masses in any two planes

A single mass in different planes

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Theory of Machine
If the number of links in a mechanism is equal to l, then the numbers of possible inversions are equal to

l + 1

l

l - 1

l - 2

l + 1

l

l - 1

l - 2

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Theory of Machine
The length of a simple pendulum which gives the same frequency as the compound pendulum, is

kG² + l₁

(kG + l₁²)/ l₁

kG + l₁

(kG² + l₁²)/ l₁

kG² + l₁

(kG + l₁²)/ l₁

kG + l₁

(kG² + l₁²)/ l₁

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Theory of Machine
The periodic time of one oscillation for a simple pendulum is

2π. √(l/g)

(1/2π). √(l/g)

2π. √(g/l)

(1/2π). √(g/l)

2π. √(l/g)

(1/2π). √(l/g)

2π. √(g/l)

(1/2π). √(g/l)

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Theory of Machine
The frictional torque transmitted in a truncated conical pivot bearing, considering uniform wear, is

(2/3). μ W cosec α [(r₁³ - r₂³)/(r₁² - r₂²)]

(1/2). μ W cosec α [(r₁³ - r₂³)/(r₁² - r₂²)]

(1/2). μ W cosec α (r₁ + r₂)

(2/3).μ W cosec α (r₁ + r₂)

(2/3). μ W cosec α [(r₁³ - r₂³)/(r₁² - r₂²)]

(1/2). μ W cosec α [(r₁³ - r₂³)/(r₁² - r₂²)]

(1/2). μ W cosec α (r₁ + r₂)

(2/3).μ W cosec α (r₁ + r₂)

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Theory of Machine
The maximum fluctuation of speed is the

Difference of the maximum and minimum speeds

Variations of speed above and below the mean resisting torque line

Difference of minimum fluctuation of speed and the mean speed

Sum of maximum and minimum speeds

Difference of the maximum and minimum speeds

Variations of speed above and below the mean resisting torque line

Difference of minimum fluctuation of speed and the mean speed

Sum of maximum and minimum speeds

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Theory of Machine

Theory of Machine Which one of the following can completely balance several masses revolving in different planes on a shaft?

Theory of Machine If the number of links in a mechanism is equal to l, then the numbers of possible inversions are equal to

Theory of Machine The length of a simple pendulum which gives the same frequency as the compound pendulum, is

Theory of Machine The periodic time of one oscillation for a simple pendulum is

Theory of Machine The frictional torque transmitted in a truncated conical pivot bearing, considering uniform wear, is

Theory of Machine The maximum fluctuation of speed is the

Theory of Machine
Which one of the following can completely balance several masses revolving in different planes on a shaft?

Theory of Machine
If the number of links in a mechanism is equal to l, then the numbers of possible inversions are equal to

Theory of Machine
The length of a simple pendulum which gives the same frequency as the compound pendulum, is

Theory of Machine
The periodic time of one oscillation for a simple pendulum is

Theory of Machine
The frictional torque transmitted in a truncated conical pivot bearing, considering uniform wear, is

Theory of Machine
The maximum fluctuation of speed is the