Stationary Waves
- Stationary waves, or standing waves, are produced by the superposition of two waves of the same frequency and amplitude travelling in opposite directions
- This is usually achieved by a travelling wave and its reflection
- The superposition produces a wave pattern where the peaks and troughs do not move
- Stationary waves store energy, unlike progressive waves which transfer energy
Formation of a stationary wave on a stretched spring fixed at one end
- Stationary waves can be represented by various mediums
Stretched String
- Vibrations caused by stationary waves on a stretched string produce sound
- This is how stringed instruments, such as guitars or violins, work
- This can be demonstrated by a length of string under tension fixed at one end and vibrations made by an oscillator:
Stationary wave on a stretched string
- As the frequency of the oscillator changes, standing waves with different numbers of minima (nodes) and maxima (antinodes) form
Microwaves
- A microwave source is placed in line with a reflecting plate and a small detector between the two
- The reflector can be moved to and from the source to vary the stationary wave pattern formed
- By moving the detector, it can pick up the minima (nodes) and maxima (antinodes) of the stationary wave pattern
Using microwaves to demonstrate stationary waves
Air Columns
- The formation of stationary waves inside an air column can be produced by sound waves
- This is how musical instruments, such as clarinets and organs, work
- This can be demonstrated by placing a fine powder inside the air column and a loudspeaker at the open end
- At certain frequencies, the powder forms evenly spaced heaps along the tube, showing where there is zero disturbance as a result of the nodes of the stationary wave
Stationary wave in an air column
- In order to produce a stationary wave, there must be a minima (node) at one end and a maxima (antinode) at the end with the loudspeaker
Exam Tip
Always refer back to the experiment or scenario in an exam question e.g. the wave produced by a loudspeaker reflects at the end of a tube. This reflected wave, with the same frequency, overlaps the initial wave to create a stationary wave.
Graphical Representation of a Stationary Wave
- A stationary wave is formed when two waves travelling in opposite directions along the same line overlap with each other
- The waves must have:
- The same speed
- The same frequency (or wavelength)
- A similar amplitude
- As a result of superposition, a resultant wave is produced
Nodes and antinodes are a result of destructive and constructive interference respectively
- A stationary wave is made up of nodes and antinodes
- At the nodes:
- The waves are in anti-phase meaning destructive interference occurs
- This causes the two waves to cancel each other out and there is no vibration
- At the antinodes:
- The waves are in phase meaning constructive interference occurs
- This causes the waves to add together and the vibration is at maximum amplitude
