When a body moves with simple harmonic motion, the product of its periodic time and frequency is equal to

Theory of Machine
When a body moves with simple harmonic motion, the product of its periodic time and frequency is equal to

π

Zero

π/2

One

π

Zero

π/2

One

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Theory of Machine
The working depth of a gear is the radial distance from the

Addendum circle to the clearance circle

Pitch circle to the bottom of a tooth

Top of a tooth to the bottom of a tooth

Pitch circle to the top of a tooth

Addendum circle to the clearance circle

Pitch circle to the bottom of a tooth

Top of a tooth to the bottom of a tooth

Pitch circle to the top of a tooth

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Theory of Machine
The inversion of a mechanism is

Turning its upside down

Obtained by fixing different links in a kinematic chain

Changing of a higher pair to a lower pair

Obtained by reversing the input and output motion

Turning its upside down

Obtained by fixing different links in a kinematic chain

Changing of a higher pair to a lower pair

Obtained by reversing the input and output motion

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Theory of Machine
Maximum fluctuation of energy in a flywheel is equal to [where I = Mass moment of inertia of the flywheel, E = Maximum fluctuation of energy, CS = Coefficient of fluctuation of speed, and ω = Mean angular speed = (ω₁ + ω₂)/2]

2.E.CS

I.ω².CS

All of these

I.ω.(ω₁ - ω₂)

2.E.CS

I.ω².CS

All of these

I.ω.(ω₁ - ω₂)

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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 pinion and flank of gear

Tip of the gear tooth and flank of pinion

Flanks of both gear and pinion

Tip of both gear and pinion

Tip of the pinion and flank of gear

Tip of the gear tooth and flank of pinion

Flanks of both gear and pinion

Tip of both gear and pinion

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Theory of Machine
In a mechanism, the fixed instantaneous centers are those centers which

Vary with the configuration of the mechanism

Moves as the mechanism moves, but joints are of permanent nature

None of the listed here

Remain in the same place for all configurations of the mechanism

Vary with the configuration of the mechanism

Moves as the mechanism moves, but joints are of permanent nature

None of the listed here

Remain in the same place for all configurations of the mechanism

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Theory of Machine

Theory of Machine When a body moves with simple harmonic motion, the product of its periodic time and frequency is equal to

Theory of Machine The working depth of a gear is the radial distance from the

Theory of Machine The inversion of a mechanism is

Theory of Machine Maximum fluctuation of energy in a flywheel is equal to [where I = Mass moment of inertia of the flywheel, E = Maximum fluctuation of energy, CS = Coefficient of fluctuation of speed, and ω = Mean angular speed = (ω₁ + ω₂)/2]

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 In a mechanism, the fixed instantaneous centers are those centers which

Theory of Machine
When a body moves with simple harmonic motion, the product of its periodic time and frequency is equal to

Theory of Machine
The working depth of a gear is the radial distance from the

Theory of Machine
The inversion of a mechanism is

Theory of Machine
Maximum fluctuation of energy in a flywheel is equal to [where I = Mass moment of inertia of the flywheel, E = Maximum fluctuation of energy, CS = Coefficient of fluctuation of speed, and ω = Mean angular speed = (ω₁ + ω₂)/2]

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
In a mechanism, the fixed instantaneous centers are those centers which