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

π/2

Zero

One

π

π/2

Zero

One

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Theory of Machine
A shaft has an attached disc at the centre of its length. The disc has its centre of gravity located at a distance of 2 mm from the axis of the shaft. When the shaft is allowed to vibrate in its natural bow-shaped mode, it has a frequency of vibration of 10 rad/s. When the shaft is rotated at 300 r.p.m., it will whirl with a radius of

2.50 mm

2.22 mm

3.0 mm

2 mm

2.50 mm

2.22 mm

3.0 mm

2 mm

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Theory of Machine
The engine of an aeroplane rotates in clockwise direction when seen from the tail end and the aeroplane takes a turn to the left. The effect of gyroscopic couple on the aeroplane will be

To dip the nose and raise the tail

To dip the nose and tail

To raise the nose and tail

To raise the nose and dip the tail

To dip the nose and raise the tail

To dip the nose and tail

To raise the nose and tail

To raise the nose and dip the tail

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Theory of Machine
To obviate axial thrust, following gear drive is used

Mutter gears

Double helical gears having identical teeth

Single helical gear in which one of the teeth of helix angle a is more

Double helical gears having opposite teeth

Mutter gears

Double helical gears having identical teeth

Single helical gear in which one of the teeth of helix angle a is more

Double helical gears having opposite teeth

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Theory of Machine
When a slider moves on a fixed link having curved surface, their instantaneous centre lies

At the pin joint

At the centre of circle

At the centre of curvature

On their point of contact

At the pin joint

At the centre of circle

At the centre of curvature

On their point of contact

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Theory of Machine
The velocity of a particle moving with simple harmonic motion, at any instant is given by (where ω = Displacement of the particle from mean position)

ω² √(x² - r²)

ω² √(r² - x²)

ω √(r² - x²)

ω √(x² - r²)

ω² √(x² - r²)

ω² √(r² - x²)

ω √(r² - x²)

ω √(x² - r²)

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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 engine of an aeroplane rotates in clockwise direction when seen from the tail end and the aeroplane takes a turn to the left. The effect of gyroscopic couple on the aeroplane will be

Theory of Machine To obviate axial thrust, following gear drive is used

Theory of Machine When a slider moves on a fixed link having curved surface, their instantaneous centre lies

Theory of Machine The velocity of a particle moving with simple harmonic motion, at any instant is given by (where ω = Displacement of the particle from mean position)

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 engine of an aeroplane rotates in clockwise direction when seen from the tail end and the aeroplane takes a turn to the left. The effect of gyroscopic couple on the aeroplane will be

Theory of Machine
To obviate axial thrust, following gear drive is used

Theory of Machine
When a slider moves on a fixed link having curved surface, their instantaneous centre lies

Theory of Machine
The velocity of a particle moving with simple harmonic motion, at any instant is given by (where ω = Displacement of the particle from mean position)