For dynamic balancing of a shaft

Theory of Machine
For dynamic balancing of a shaft

The net couple due to the dynamic forces acting on the shaft is equal to zero

None of these

The net dynamic force acting on the shaft is equal to zero

Both (A) and (B)

The net couple due to the dynamic forces acting on the shaft is equal to zero

None of these

The net dynamic force acting on the shaft is equal to zero

Both (A) and (B)

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Theory of Machine
The relation l = (2/3).(j + 2) apply only to kinematic chains in which lower pairs are used. This may be used to kinematic chains in which higher pairs are used, but each higher pair may be taken as equivalent to

Any one of these

Two lower pairs and two additional links

One lower pair and two additional links

Two lower pairs and one additional link

Any one of these

Two lower pairs and two additional links

One lower pair and two additional links

Two lower pairs and one additional link

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Theory of Machine
The secondary unbalanced force is maximum __________ in one revolution of the crank.

Sixteen times

Eight times

Two times

Four times

Sixteen times

Eight times

Two times

Four times

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Theory of Machine
The fundamental equation for correct steering is (where φ and α = Angle through which the axis of the outer wheel and inner wheel turns respectively, c = Distance between the pivots of the front axles, and d = Wheel base)

sinφ + sinα = b/c

cotφ - cotα = c/b

tanφ + cotα = b/c

cosφ - sinα = c/b

sinφ + sinα = b/c

cotφ - cotα = c/b

tanφ + cotα = b/c

cosφ - sinα = c/b

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Theory of Machine
Longitudinal vibrations are said to occur when the particles of a body moves

Perpendicular to its axis

Parallel to its axis

None of these

In a circle about its axis

Perpendicular to its axis

Parallel to its axis

None of these

In a circle about its axis

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Theory of Machine
When the elements of a pair are kept in contact by the action of external forces, the pair is said to be a

Higher pair

Force-closed pair

Lower pair

Self-closed pair

Higher pair

Force-closed pair

Lower pair

Self-closed pair

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Theory of Machine

Theory of Machine For dynamic balancing of a shaft

Theory of Machine The relation l = (2/3).(j + 2) apply only to kinematic chains in which lower pairs are used. This may be used to kinematic chains in which higher pairs are used, but each higher pair may be taken as equivalent to

Theory of Machine The secondary unbalanced force is maximum __________ in one revolution of the crank.

Theory of Machine The fundamental equation for correct steering is (where φ and α = Angle through which the axis of the outer wheel and inner wheel turns respectively, c = Distance between the pivots of the front axles, and d = Wheel base)

Theory of Machine Longitudinal vibrations are said to occur when the particles of a body moves

Theory of Machine When the elements of a pair are kept in contact by the action of external forces, the pair is said to be a

Theory of Machine
For dynamic balancing of a shaft

Theory of Machine
The relation l = (2/3).(j + 2) apply only to kinematic chains in which lower pairs are used. This may be used to kinematic chains in which higher pairs are used, but each higher pair may be taken as equivalent to

Theory of Machine
The secondary unbalanced force is maximum __________ in one revolution of the crank.

Theory of Machine
The fundamental equation for correct steering is (where φ and α = Angle through which the axis of the outer wheel and inner wheel turns respectively, c = Distance between the pivots of the front axles, and d = Wheel base)

Theory of Machine
Longitudinal vibrations are said to occur when the particles of a body moves

Theory of Machine
When the elements of a pair are kept in contact by the action of external forces, the pair is said to be a