Driven oscillations and damping 12th Grade Quiz

Driven oscillations and damping

Quiz

•

Physics

•

12th Grade

•

Hard

Helen Brand

FREE Resource

5 questions

Show all answers

MULTIPLE CHOICE QUESTION

30 sec • 1 pt

Which one of the following statements always applies to a damping force acting on a vibrating system?

It is in the same direction as the acceleration.

It is in the same direction as the displacement.

It is in the opposite direction to the velocity.

It is proportional to the displacement.

MULTIPLE CHOICE QUESTION

30 sec • 1 pt

A metal panel is driven to vibrate at different frequencies. The amplitude a of the vibration is measured at each frequency. The graph shows the variation of amplitude with driven frequency. The damping of the metal panel is increased without changing the mass of the panel.

Which graph shows the variation of a with frequency with increased damping?

MULTIPLE CHOICE QUESTION

30 sec • 1 pt

A periodic force is applied to a lightly-damped object causing the object to oscillate.
The graph shows how the amplitude A of the oscillations varies with the frequency f of the periodic force.

Which one of the following statements best describes how the shape of the curve would differ if the damping had been greater?

the curve would be lower at all frequencies

the curve would be higher at all frequencies

the curve would be unchanged except at frequencies above the resonant frequency where it would be lower

the curve would be unchanged except at frequencies above the resonant frequency where it would be higher

MULTIPLE CHOICE QUESTION

30 sec • 1 pt

An oscillatory system, subject to damping, is set into vibration by a periodic driving force of frequency f. The graphs, A to D, which are to the same scale, show how the amplitude of vibration A of the system might vary with f, for various degrees of damping.

Which graph best shows the lightest damping?

MULTIPLE CHOICE QUESTION

30 sec • 1 pt

Which one of the following statements about an oscillating mechanical system at resonance, when it oscillates with a constant amplitude, is not correct?

The amplitude of oscillations depends on the amount of damping.

The frequency of the applied force is the same as the natural frequency of oscillation of the system.

The total energy of the system is constant.

The applied force prevents the amplitude from becoming too large.

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