Reflection, Absorption & Transmission
- Depending on the densities of the materials on either side of a boundary, a wave may be:
- Reflected
- Transmitted
- Absorbed
Reflection
- Reflection occurs when:
A wave hits a boundary between two media and does not pass through, but instead stays in the original medium
- The law of reflection states:
The angle of incidence = The angle of reflection
Reflection of a wave at a boundary
- Some of the wave may also be absorbed or transmitted
- Echos are examples of sound waves being reflected off a surface
- Flat surfaces are the most reflective
- The smoother the surface, the stronger the reflected wave is
- Rough surfaces are the least reflective
- This is because the light scatters in all directions
- Opaque surfaces will reflect light which is not absorbed by the material
- The electrons will absorb the light energy, then reemit it as a reflected wave
Transmission
- Transmission occurs when:
A wave passes through a substance
- For light waves, the more transparent the material, the more light will pass through
- Transmission can involve refraction but is not exactly the same
- For the process to count as transmission, the wave must pass through the material and emerge from the other side
- When passing through a material, waves are usually partially absorbed
- The transmitted wave may have a lower amplitude because of some absorption
- For example, sound waves are quieter after they pass through a wall
When a wave passes through a boundary it may be absorbed and transmitted
Absorption
- Absorption occurs when:
Energy is transferred from the wave into the particles of a substance
- Waves can be partially or completely absorbed
- Sound waves are absorbed by brick or concrete in houses
- Light will be absorbed if the frequency of light matches the energy levels of the electrons
- The light will be absorbed, and then reemitted over time as heat
- If an object appears red, this means:
- Only red light has been reflected
- All the other frequencies of visible light have been absorbed
The object is seen as red since the red light is reflected whilst the other colours are absorbed
Examiner Tip
Make sure you can clearly differentiate between these three effects of waves at a material interface! They are all subtly different.