Refraction & Refractive Index (Edexcel International AS Physics)

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Lindsay Gilmour

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Refraction & Refractive Index

  • Refraction occurs when light passes a boundary between two different transparent media
  • At the boundary, the rays of light undergo a change in direction and a change in speed
  • The change in direction is caused by the change in speed
    • Entering a more dense medium slows the light down and it bends towards the normal
      • In the denser medium there are more particles closer together providing more friction to the passing of the light through the material
    • Entering a less dense medium speeds the light up and it bends away from the normal
    • When passing along the normal (perpendicular) the light does not direction
    • Its speed does still change, as it is passing through a medium with a different refractive index

Refractive Index, downloadable AS & A Level Physics revision notes

Refraction of light through a glass block

Calculating Refractive Index

  • The refractive index, n, is a property of a material which measures how much light slows down when passing through it

  • Where:
    • c = the speed of light in a vacuum (m s–1)
    • v = the speed of light in a substance (m s–1)

  • Light travels at different speeds within different substances depending on their refractive index
    • A material with a high refractive index is called optically dense, such material causes light to travel slower

  • Since the speed of light in a substance will always be less than the speed of light in a vacuum, the value of the n is always greater than 1
  • In calculations, the refractive index of air can be taken to be approximately 1
    • This is because light does not slow down significantly when travelling through air (as opposed to travelling through a vacuum)

Snell's Law

  • Snell’s law relates the angle of incidence to the angle of refraction, it is given by:

n1 sin θ1 = n2 sin θ2

  • Where:
    • n1 = the refractive index of material 1
    • n2 = the refractive index of material 2
    • θ1 = the angle of incidence of the ray in material 1 (°)
    • θ2 = the angle of refraction of the ray in material 2 (°)

Snell’s Law, downloadable AS & A Level Physics revision notes

Snell's Law is used to find the refractive indices or the angles to the normal at a boundary

  • θ1 and θ2 are always taken from the normal
  • Material 1 is always the material in which the ray goes through first
  • Material 2 is always the material in which the ray goes through second

Worked example

A light ray is directed at a vertical face of a glass cube. The angle of incidence at the vertical face is 39° and the angle of refraction is 25° as shown in the diagram.Snell’s Law Worked Example, downloadable AS & A Level Physics revision notes Show that the refractive index of the glass is about 1.5.

Examiner Tip

Always double-check if your calculations for the refractive index are greater than 1. Otherwise, something has definitely gone wrong in your calculation!

The refractive index of air will not be given in the question. Always assume that nair = 1.

Always check that the angle of incidence and refraction are the angles between the normal and the light ray. Remember the normal line is not really there - it has been drawn in to give you a place to measure from.

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Lindsay Gilmour

Author: Lindsay Gilmour

Expertise: Physics

Lindsay graduated with First Class Honours from the University of Greenwich and earned her Science Communication MSc at Imperial College London. Now with many years’ experience as a Head of Physics and Examiner for A Level and IGCSE Physics (and Biology!), her love of communicating, educating and Physics has brought her to Save My Exams where she hopes to help as many students as possible on their next steps.