Phase & Path Difference (Edexcel International AS Physics)

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Lindsay Gilmour

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Phase & Path Difference

  • Waves are said to be coherent if they have:
    • The same frequency
    • A constant phase difference

Phase Difference

  • Two points on a wave, or on different waves, are in phase when they are the same point in their wave cycle
  • The angle between their wave cycles is the phase difference

5-8-stationary-waves-phasors_edexcel-al-physics-rn

Path Difference

  • The type of interference occurring at a given point (i.e. constructive or destructive) depends on the path difference of the overlapping waves
  • Path difference is defined as:

The difference in distance travelled by two waves from their sources to the point where they meet

  • Path difference is generally expressed in multiples of wavelength

Path Difference, downloadable AS & A Level Physics revision notes

At point P2 the waves have a path difference of a whole number of wavelengths resulting in constructive interference. At point P1 the waves have a path difference of an odd number of half wavelengths resulting in destructive interference

  • In the diagram above, the number of wavelengths between:
    • S1 ➜ P1 = 6λ
    • S2 ➜ P1 = 6.5λ
    • S1 ➜ P2 = 7λ
    • S2 ➜ P2 = 6λ

  • The path difference at point P1 is 6.5λ – 6λ = λ / 2
  • The path difference at point P2 is 7λ – 6λ = λ
  • In general:
    • The condition for constructive interference is a path difference of
    • The condition for destructive interference is a path difference of (n + ½)λ
    • In this case, n is an integer i.e. 0, 1, 2, 3...

  • Hence:
    • Destructive interference occurs at point P1
    • Constructive interference occurs at point P2

Path Difference & Interference Pattern, downloadable AS & A Level Physics revision notes

At point P the waves have a path difference of a whole number of wavelengths resulting in constructive interference

  • Another way to represent waves spreading out from two sources is shown in the diagram above
  • At point P, the number of crests from:
    • Source S1 = 4λ
    • Source S2 = 6λ

  • The path difference at P is 6λ – 4λ =
  • This is a whole number of wavelengths, hence constructive interference occurs at point P

Worked example

The diagram shows the interferences of coherent waves from two point sources.WE - Interference and coherence question image 1, downloadable AS & A Level Physics revision notesWhich row in the table correctly identifies the type of interference at points X, Y and Z.WE - Interference and coherence question image 2, downloadable AS & A Level Physics revision notes

      ANSWER: B

  • At point X:
    • Both peaks of the waves are overlapping
    • Path difference = 5.5λ – 4.5λ = λ
    • This is constructive interference and rules out options C and D

  • At point Y:
    • Both troughs are overlapping
    • Path difference = 3.5λ – 3.5λ = 0
    • Therefore constructive interference occurs

  • At point Z:
    • A peak of one of the waves meets the trough of the other
    • Path difference = 4λ – 3.5λ = λ / 2
    • This is destructive interference

Examiner Tip

Phase difference and path difference are easy to confuse because the names sound similar. However they are very different concepts.

Phase difference tells us how far apart the waves are when comparing their phases (you can think of this as their peaks and troughs).

Path difference is how much further along one wave is than another. Think of it as how much further along the path it has travelled.

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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.