The velocity of the belt for maximum power is (where m = Mass of the belt in kg per meter length)

Theory of Machine
The velocity of the belt for maximum power is (where m = Mass of the belt in kg per meter length)

√(T/3m)

T/3

√(3m/T)

(T.g)/3

√(T/3m)

T/3

√(3m/T)

(T.g)/3

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Theory of Machine
In a steam engine, the link constitutes a

Piston, piston rod and cross-head

Connecting rod with big and small end brasses, caps and bolts

Crank pin, crankshaft and flywheel

All of these

Piston, piston rod and cross-head

Connecting rod with big and small end brasses, caps and bolts

Crank pin, crankshaft and flywheel

All of these

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Theory of Machine
Which is the false statement about the properties of instantaneous center?

The two rigid links have no linear velocities relative to each other at the instantaneous center

The two rigid links which have no linear velocity relative to each other at this center have the same linear velocity to the third rigid link

At the instantaneous center of rotation, one rigid link rotates instantaneously relative to another for the configuration of mechanism considered

The double center can be denoted either by O2 or O12, but proper selection should be made

The two rigid links have no linear velocities relative to each other at the instantaneous center

The two rigid links which have no linear velocity relative to each other at this center have the same linear velocity to the third rigid link

At the instantaneous center of rotation, one rigid link rotates instantaneously relative to another for the configuration of mechanism considered

The double center can be denoted either by O2 or O12, but proper selection should be made

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Theory of Machine
The Grubler's criterion for determining the degrees of freedom (n) of a mechanism having plane motion is (where l = Number of links, and j = Number of binary joints)

n = (l -1) - j

n = 4(l - 1) - 3j

n = 2(l - 1) - 2j

n = 3(l - 1) - 2j

n = (l -1) - j

n = 4(l - 1) - 3j

n = 2(l - 1) - 2j

n = 3(l - 1) - 2j

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Theory of Machine
Minimum number of teeth for involute rack and pinion arrangement for pressure angle of 20° is

34

20

30

10

34

20

30

10

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Theory of Machine
The flank of the tooth is the surface of the tooth __________ the pitch surface.

At

None of these

Below

Above

At

None of these

Below

Above

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Theory of Machine

Theory of Machine The velocity of the belt for maximum power is (where m = Mass of the belt in kg per meter length)

Theory of Machine In a steam engine, the link constitutes a

Theory of Machine Which is the false statement about the properties of instantaneous center?

Theory of Machine The Grubler's criterion for determining the degrees of freedom (n) of a mechanism having plane motion is (where l = Number of links, and j = Number of binary joints)

Theory of Machine Minimum number of teeth for involute rack and pinion arrangement for pressure angle of 20° is

Theory of Machine The flank of the tooth is the surface of the tooth __________ the pitch surface.

Theory of Machine
The velocity of the belt for maximum power is (where m = Mass of the belt in kg per meter length)

Theory of Machine
In a steam engine, the link constitutes a

Theory of Machine
Which is the false statement about the properties of instantaneous center?

Theory of Machine
The Grubler's criterion for determining the degrees of freedom (n) of a mechanism having plane motion is (where l = Number of links, and j = Number of binary joints)

Theory of Machine
Minimum number of teeth for involute rack and pinion arrangement for pressure angle of 20° is

Theory of Machine
The flank of the tooth is the surface of the tooth __________ the pitch surface.