A friction circle is a circle drawn when a journal rotates in a bearing. Its radius depends upon the coefficient of friction and the

Theory of Machine
A friction circle is a circle drawn when a journal rotates in a bearing. Its radius depends upon the coefficient of friction and the

Radius of journal

Clearance between journal and bearing

Magnitude of the forces on journal

Angular velocity of journal

Radius of journal

Clearance between journal and bearing

Magnitude of the forces on journal

Angular velocity of journal

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Theory of Machine
The two parallel and coplanar shafts are connected by gears having teeth parallel to the axis of the shaft. This arrangement is known as

Helical gearing

Bevel gearing

Spur gearing

Spiral gearing

Helical gearing

Bevel gearing

Spur gearing

Spiral gearing

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Theory of Machine
The static balancing is satisfactory for low speed rotors but with increasing speeds, dynamic balancing becomes necessary. This is because, the

Effects of unbalances are proportional to the square of the speed

Unbalanced couples are caused only at higher speeds

Unbalanced forces are not dangerous at higher speeds

Effects of unbalances are directly proportional to the speed

Effects of unbalances are proportional to the square of the speed

Unbalanced couples are caused only at higher speeds

Unbalanced forces are not dangerous at higher speeds

Effects of unbalances are directly proportional to the speed

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Theory of Machine
In a four bar chain or quadric cycle chain

Two are turning pairs and two are sliding pairs

One is a turning pair and three are sliding pairs

Each of the four pairs is a turning pair

Three are turning pairs and one is a sliding pair

Two are turning pairs and two are sliding pairs

One is a turning pair and three are sliding pairs

Each of the four pairs is a turning pair

Three are turning pairs and one is a sliding pair

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Theory of Machine
Inertia force acts

Opposite to the direction of acceleration force

Perpendicular to the acceleration force

None of the listed here

Along the direction of acceleration force

Opposite to the direction of acceleration force

Perpendicular to the acceleration force

None of the listed here

Along the direction of acceleration force

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Theory of Machine
The ratio of the driving tensions for V-belts is __________ times that of flat belts.(Where β = Semi-angle of the groove)

sinβ

cosβ

secβ

cosecβ

sinβ

cosβ

secβ

cosecβ

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Theory of Machine

Theory of Machine A friction circle is a circle drawn when a journal rotates in a bearing. Its radius depends upon the coefficient of friction and the

Theory of Machine The two parallel and coplanar shafts are connected by gears having teeth parallel to the axis of the shaft. This arrangement is known as

Theory of Machine The static balancing is satisfactory for low speed rotors but with increasing speeds, dynamic balancing becomes necessary. This is because, the

Theory of Machine In a four bar chain or quadric cycle chain

Theory of Machine Inertia force acts

Theory of Machine The ratio of the driving tensions for V-belts is __________ times that of flat belts.(Where β = Semi-angle of the groove)

Theory of Machine
A friction circle is a circle drawn when a journal rotates in a bearing. Its radius depends upon the coefficient of friction and the

Theory of Machine
The two parallel and coplanar shafts are connected by gears having teeth parallel to the axis of the shaft. This arrangement is known as

Theory of Machine
The static balancing is satisfactory for low speed rotors but with increasing speeds, dynamic balancing becomes necessary. This is because, the

Theory of Machine
In a four bar chain or quadric cycle chain

Theory of Machine
Inertia force acts

Theory of Machine
The ratio of the driving tensions for V-belts is __________ times that of flat belts.(Where β = Semi-angle of the groove)