Diffraction and Interference of Light

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Presentation transcript:

Diffraction and Interference of Light Chapter 19

19.1 When Light Waves Interfere Grimaldi found that edges in shadows are not perfectly sharp. Diffraction- bending of waves around a barrier Huygens – all points of a wave front of light could be thought of as new sources of smaller waves. Fig 19-1 444

Young – dev. experiment to explain how light acts as a wave Produced pattern of light and dark bands, interference fringes Constructive & destructive interference Fig 19 –2 445 Monochromatic- one color –wide central band Coherent waves – waves are in phase.

White light – central band is white, other bands depend on  Fig 19-3 445 Young also measured  of light. Fig 19-4 447  = xd/L x - distance from central to next band, d - distance between slits and L - distance from slit to screen. Ex Prob 448

Single slit – bright central band with dimmer bands on each side Fig 19-5 & 6 449 x = L/w x - distance from central to next band, w – width of slit, and L - distance from slit to screen. Fig 19-7 450 Prac Pr 451

19.2 Applications of Diffraction Colors on butterfly wings and beetles are produced by diffraction. Diffraction grating – transmits or reflects light & forms an interference pattern like double slit.

Holography – produces a 3-D image that is difficult to copy.

Spectroscope – used to measure  Fig 19-9 454 & Fig 19-10 455  = xd/L = d sin  Diffraction limits the ability of a lens to distinguish two closely spaced objects. Rayleigh criterion – if central band of one star falls on central band of the other can be resolved. Can be reduced by increasing size of lens.