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Interference and Diffraction Physics Mrs. Coyle. Light’s Nature Wave nature (electromagnetic wave) Particle nature (bundles of energy called photons)

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Presentation on theme: "Interference and Diffraction Physics Mrs. Coyle. Light’s Nature Wave nature (electromagnetic wave) Particle nature (bundles of energy called photons)"— Presentation transcript:

1 Interference and Diffraction Physics Mrs. Coyle

2 Light’s Nature Wave nature (electromagnetic wave) Particle nature (bundles of energy called photons)

3 Past- Separate Theories of Either Wave or Particle Nature Corpuscular theory of Newton (1670) Light corpuscles have mass and travel at extremely high speeds in straight lines Huygens (1680) Wavelets-each point on a wavefront acts as a source for the next wavefront

4 Why was it difficult to prove the wave part of the nature of light?

5 Proofs of Wave Nature Thomas Young's Double Slit Experiment (1807) bright (constructive) and dark (destructive) fringes seen on screen Thin Film Interference Patterns Poisson/Arago Spot (1820) Diffraction fringes seen within and around a small obstacle or through a narrow opening

6 Proof of Particle Nature: The Photoelectric Effect Albert Einstein 1905 Light energy is quantized Photon is a quantum or packet of energy

7 The Photoelectric Effect Heinrich Hertz first observed the photoelectric effect in 1887 Einstein explained it in 1905 and won the Nobel prize for this.

8 Thomas Young’s Double Slit Interference Experiment Showed an interference pattern Measured the wavelength of the light

9 Two Waves Interfering

10 Young’s Double Slit Interference Pattern

11 http://galileo.phys.virginia.edu/classes/USEM/SciImg/home_files/introduction_files/doubleslit.jpg

12 Interference of Waves From Two Sources Simulation “Ripple Tank” http://www3.interscience.wiley.com:8100/l egacy/college/halliday/0471320005/simula tions6e/index.htm?newwindow=true http://www3.interscience.wiley.com:8100/l egacy/college/halliday/0471320005/simula tions6e/index.htm?newwindow=true

13 Interference Young’s Double Slit Interference http://galileo.phys.virginia.edu/classes /109N/more_stuff/flashlets/youngexpt 4.htmhttp://galileo.phys.virginia.edu/classes /109N/more_stuff/flashlets/youngexpt 4.htm

14 For Constructive Interference: The waves must arrive to the point of study in phase. So their path difference must be integral multiples of the wavelength:  L= n n=0,1,2,3,………

15 For destructive interference:, the waves must arrive to the point of study out of phase. So the path difference must be an odd multiple of /2 :  L= n m=1/2,3/2,5/2,….

16 Typical Question Where is the first location of constructive or destructive interference?

17 Fo Constructive Interference of Waves from Two Sources x=Ltan  sin  L/d  L=n For small angles: Lsin  ~Ltan  dsin  n n  dx L d  L x  n=0,1,2,3,…

18 Double Slit Interference dsin  n n  dx L Constructive (brights) n=0,1,2,3,….. Destructive (darks) n=1/2, 3/2, 5/2,….. Note: To find maximum # of fringes set  to 90 o for n.

19 Question How does x change with wavelength? How does x change with slit distance?

20 Problem Two slits are 0.05 m apart. A laser of wavelength 633nm is incident to the slits. A screen is placed 2m from the slits. a) Calculate the position of the first and second bright fringe. b) What is the maximum number of destructive interference spots there can be on either side of the central maximum?

21 Diffraction Grating http://des.memphis.edu/lurbano/vpython/matter_interactions/spectrum/spectrum_02.jpg

22 Diffraction Grating Large number of equally spaced parallel slits. Equations are same as for double slit interference but first calculate the d (slit separation) from the grating density, N. d=1/N, N slits per unit length dsin  n n  dx L Constructive (brights) n=0,1,2,3,….. Destructive (darks) n=1/2, 3/2, 5/2,…..

23 Problem A neon laser of wavelength 633nm is pointed at a diffraction grating of 3000lines/cm. Find the angle where the first bright occurs. (Hint: slit separation d is inverse of grating density)

24 Diffraction Wave bends as it passes an obstacle.

25 Diffraction through a Narrow Slit Each part of the slit acts as a point source that interferes with the others. (Based on Huygens Principle)

26 Pattern of Diffraction of Light through a Narrow Slit L w x

27 Intensity of the Diffraction Interference Patterns Simulation “Interference of Light” http://www3.interscience.wiley.com:8100/l egacy/college/halliday/0471320005/simula tions6e/index.htm?newwindow=truehttp://www3.interscience.wiley.com:8100/l egacy/college/halliday/0471320005/simula tions6e/index.htm?newwindow=true

28 Diffraction from Narrow Slit wsin  n  nw y L w: is the width of the slit Destructive (dark fringes): m=0,1,2,3,….

29 Questions How does x change with the width? How does x change with the wavelength

30 Diffraction around a Penny and Poison Spot

31 Example of Diffraction

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