The relation between number of pairs (p) forming a kinematic chain and the number of links (l) is

Theory of Machine
The relation between number of pairs (p) forming a kinematic chain and the number of links (l) is

l = 2p - 2

l = 2p - 3

l = 2p - 5

l = 2p - 4

l = 2p - 2

l = 2p - 3

l = 2p - 5

l = 2p - 4

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Theory of Machine
An involute pinion and gear are in mesh. If both have the same size of addendum, then there will be an interference between the

Tip of the gear tooth and flank of pinion

Flanks of both gear and pinion

Tip of the pinion and flank of gear

Tip of both gear and pinion

Tip of the gear tooth and flank of pinion

Flanks of both gear and pinion

Tip of the pinion and flank of gear

Tip of both gear and pinion

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Theory of Machine
Angular acceleration of a link can be determined by dividing the

All of these

Centripetal component of acceleration with length of link

Resultant acceleration with length of link

Tangential component of acceleration with length of link

All of these

Centripetal component of acceleration with length of link

Resultant acceleration with length of link

Tangential component of acceleration with length of link

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Theory of Machine
For S.H.M. cam, the acceleration of the follower at the ends of the stroke and aimed stroke respectively, is

Zero and maximum

Minimum and maximum

Zero and minimum

Maximum and zero

Zero and maximum

Minimum and maximum

Zero and minimum

Maximum and zero

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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

Angular velocity of journal

Magnitude of the forces on journal

Clearance between journal and bearing

Radius of journal

Angular velocity of journal

Magnitude of the forces on journal

Clearance between journal and bearing

Radius of journal

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Theory of Machine
The ratio of height of Porter governor (when length of arms and links are equal) to the height of Watt's governor is (where m = Mass of the ball, and M = Mass on the sleeve)

M/(m + M)

(m + M)/m

m/(m + M)

(m + M)/M

M/(m + M)

(m + M)/m

m/(m + M)

(m + M)/M

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Theory of Machine

Theory of Machine The relation between number of pairs (p) forming a kinematic chain and the number of links (l) is

Theory of Machine An involute pinion and gear are in mesh. If both have the same size of addendum, then there will be an interference between the

Theory of Machine Angular acceleration of a link can be determined by dividing the

Theory of Machine For S.H.M. cam, the acceleration of the follower at the ends of the stroke and aimed stroke respectively, is

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 ratio of height of Porter governor (when length of arms and links are equal) to the height of Watt's governor is (where m = Mass of the ball, and M = Mass on the sleeve)

Theory of Machine
The relation between number of pairs (p) forming a kinematic chain and the number of links (l) is

Theory of Machine
An involute pinion and gear are in mesh. If both have the same size of addendum, then there will be an interference between the

Theory of Machine
Angular acceleration of a link can be determined by dividing the

Theory of Machine
For S.H.M. cam, the acceleration of the follower at the ends of the stroke and aimed stroke respectively, is

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 ratio of height of Porter governor (when length of arms and links are equal) to the height of Watt's governor is (where m = Mass of the ball, and M = Mass on the sleeve)