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?

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

Two masses in any two planes

Two equal masses in any two planes

A single mass in different planes

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

Two masses in any two planes

Two equal masses in any two planes

A single mass in different planes

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Theory of Machine
In a cam drive with uniform velocity follower, the sharp corners of the displacement diagram are rounded off at the beginning and at the end of each stroke. This is done

Because the uniform velocity motion is a partial parabolic motion

Because of loose contact of follower with cam surface

Because of difficulty in manufacturing cam profile

In order to have acceleration in beginning and retardation at the end of stroke within the finite limits

Because the uniform velocity motion is a partial parabolic motion

Because of loose contact of follower with cam surface

Because of difficulty in manufacturing cam profile

In order to have acceleration in beginning and retardation at the end of stroke within the finite limits

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Theory of Machine
The critical speed of a shaft depends upon its

Mass

Mass and stiffness

Stiffness

Stiffness and eccentricity

Mass

Mass and stiffness

Stiffness

Stiffness and eccentricity

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Theory of Machine
There are six gears A, B, C, D, E and F in a compound train. The numbers of teeth in the gears are 20, 60, 30, 80, 25 and 75 respectively. The ratio of angular speeds of the driven (F) to the driver (A) of the drive is

1/8

4/15

1/24

12

1/8

4/15

1/24

12

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Theory of Machine
The driving and driven shafts connected by a Hooke's joint will have equal speeds, if

cotθ = cosα

cosθ = sinα

tanθ = ± cosα

sinθ = ± tanα

cotθ = cosα

cosθ = sinα

tanθ = ± cosα

sinθ = ± tanα

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Theory of Machine
The train value of a gear train is

Equal to velocity ratio of a gear train

Reciprocal of velocity ratio of a gear train

Always less than unity

Always greater than unity

Equal to velocity ratio of a gear train

Reciprocal of velocity ratio of a gear train

Always less than unity

Always greater than unity

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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 In a cam drive with uniform velocity follower, the sharp corners of the displacement diagram are rounded off at the beginning and at the end of each stroke. This is done

Theory of Machine The critical speed of a shaft depends upon its

Theory of Machine There are six gears A, B, C, D, E and F in a compound train. The numbers of teeth in the gears are 20, 60, 30, 80, 25 and 75 respectively. The ratio of angular speeds of the driven (F) to the driver (A) of the drive is

Theory of Machine The driving and driven shafts connected by a Hooke's joint will have equal speeds, if

Theory of Machine The train value of a gear train is

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

Theory of Machine
In a cam drive with uniform velocity follower, the sharp corners of the displacement diagram are rounded off at the beginning and at the end of each stroke. This is done

Theory of Machine
The critical speed of a shaft depends upon its

Theory of Machine
There are six gears A, B, C, D, E and F in a compound train. The numbers of teeth in the gears are 20, 60, 30, 80, 25 and 75 respectively. The ratio of angular speeds of the driven (F) to the driver (A) of the drive is

Theory of Machine
The driving and driven shafts connected by a Hooke's joint will have equal speeds, if

Theory of Machine
The train value of a gear train is