Damping
- In practice, all oscillators eventually stop oscillating
- Their amplitudes decrease rapidly, or gradually
- This happens due to resistive forces, such friction or air resistance, which act in the opposite direction to the motion of an oscillator
- Resistive forces acting on an oscillating simple harmonic system cause damping
- These are known as damped oscillations
- Damping is defined as:
The reduction in energy and amplitude of oscillations due to resistive forces on the oscillating system
- Damping continues until the oscillator comes to rest at the equilibrium position
- A key feature of simple harmonic motion is that the frequency of damped oscillations does not change as the amplitude decreases
- For example, a child on a swing can oscillate back and forth once every second, but this time remains the same regardless of the amplitude
Damping on a mass on a spring is caused by a resistive force acting in the opposite direction to the motion. This continues until the amplitude of the oscillations reaches zero
Examiner Tip
Make sure not to confuse resistive force and restoring force:
- Resistive force is what opposes the motion of the oscillator and causes damping
- Restoring force is what brings the oscillator back to the equilibrium position