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 different planes

Two masses in any two planes

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

Two equal masses in any two planes

A single mass in different planes

Two masses in any two planes

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

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Theory of Machine
The acceleration of a flat-faced follower when it has contact with the flank of a circular arc cam, is given by

ω² (R - r₁) sinθ

ω² r₁ sinθ

ω² (R - r₁) cosθ

ω² R cosθ

ω² (R - r₁) sinθ

ω² r₁ sinθ

ω² (R - r₁) cosθ

ω² R cosθ

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Theory of Machine
Flexible coupling is used because

It transmits shocks gradually

It is easy to engage and disengage

It prevents shock transmission and eliminates stress reversals

It is easy to disassemble

It transmits shocks gradually

It is easy to engage and disengage

It prevents shock transmission and eliminates stress reversals

It is easy to disassemble

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Theory of Machine
The Klein's diagram is useful to find

Angular acceleration of various parts

Acceleration of various parts

Displacement of various parts

Velocity of various parts

Angular acceleration of various parts

Acceleration of various parts

Displacement of various parts

Velocity of various parts

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

(kG² + h²)/h

h²/(kG² + h²)

h/(kG² + h²)

(kG² + h²)/h²

(kG² + h²)/h

h²/(kG² + h²)

h/(kG² + h²)

(kG² + h²)/h²

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Theory of Machine
The arrangement is called bevel gearing, when two __________ are connected by gears.

Parallel and non-coplanar shafts

Intersecting and coplanar shafts

Parallel and coplanar shafts

Non-intersecting and non-coplanar shafts

Parallel and non-coplanar shafts

Intersecting and coplanar shafts

Parallel and coplanar shafts

Non-intersecting and non-coplanar shafts

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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 The acceleration of a flat-faced follower when it has contact with the flank of a circular arc cam, is given by

Theory of Machine Flexible coupling is used because

Theory of Machine The Klein's diagram is useful to find

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

Theory of Machine The arrangement is called bevel gearing, when two __________ are connected by gears.

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

Theory of Machine
The acceleration of a flat-faced follower when it has contact with the flank of a circular arc cam, is given by

Theory of Machine
Flexible coupling is used because

Theory of Machine
The Klein's diagram is useful to find

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

Theory of Machine
The arrangement is called bevel gearing, when two __________ are connected by gears.