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Physics 52 - Heat and Optics Dr. Joseph F. Becker Physics Department San Jose State University

Physics 52 - Heat and Optics Dr. Joseph F. Becker Physics Department San Jose State University. © 2005 J. F. Becker. Chapter 33 The Nature and Propagation of Light.

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Physics 52 - Heat and Optics Dr. Joseph F. Becker Physics Department San Jose State University

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  1. Physics 52 - Heat and OpticsDr. Joseph F. BeckerPhysics DepartmentSan Jose State University © 2005 J. F. Becker

  2. Chapter 33The Nature and Propagation of Light © 2005 J. F. Becker San Jose State University Physics 52 Heat and Optics

  3. Spherical E-M wave fronts spreading out uniformly in all directions from a point source of LIGHT © 2005 J. F. Becker San Jose State University Physics 52 Heat and Optics

  4. Wave fronts and rays. Spherical wave fronts. When wave fronts are planes the rays are parallel. © 2005 J. F. Becker San Jose State University Physics 52 Heat and Optics

  5. A plane wave is in part reflected and in part refracted at the boundary between two media (air and glass here). air glass air glass © 2005 J. F. Becker San Jose State University Physics 52 Heat and Optics

  6. Specular and diffuse reflection © 2005 J. F. Becker San Jose State University Physics 52 Heat and Optics

  7. Reflection and refraction for the case where nb > na air glass © 2005 J. F. Becker San Jose State University Physics 52 Heat and Optics

  8. Optical materials are characterized by an important property called the index of refraction or refractive index defined as:n = c / vnwhere c is the speed of light in vacuum and equal to c = 3.00 (10)8 m/s, and vn is the speed of light in the material. The value of vn varies from one material to another (type of molecules, crystal structure, etc.). n is always equal to, or greater than, 1.00 © 2005 J. F. Becker San Jose State University Physics 52 Heat and Optics

  9. A twice reflected ray (done in the lab) © 2005 J. F. Becker San Jose State University Physics 52 Heat and Optics

  10. As light passes through the interface between two materials (like air and glass) the frequency (f) of the light wave remains the same: number of cycles per second out of one material must equal the number of cycles/second into the other. IN VACUUM: f = c / loIN MATERIAL: f = vn / lnEquating the f’s the we get c / lo = vn / ln ln = lo (vn / c) so ln = lo / (n) © 2005 J. F. Becker San Jose State University Physics 52 Heat and Optics

  11. Law of REFLECTION Angle of incidence = angle of reflectionqi = qr Law of REFRACTION (Snell’s Law) n1 sin q1 = n2 sin q2 © 2005 J. F. Becker San Jose State University Physics 52 Heat and Optics

  12. A light ray is incident on a block of glass (n = 1.50) making an angle of 30o with the NORMAL to the surface. • What is the angle of reflection? • What is the angle of refraction? © 2005 J. F. Becker San Jose State University Physics 52 Heat and Optics

  13. Total internalreflection(FIBER OPTICS) © 2005 J. F. Becker San Jose State University Physics 52 Heat and Optics

  14. Light trapped in a fiber optic glass communications cable: total internal reflection © 2005 J. F. Becker San Jose State University Physics 52 Heat and Optics

  15. Variation of index of refraction (n) with wavelength of light in vacuum (lo). The wavelength of light in thematerial is ln= lo / n 700 © 2005 J. F. Becker San Jose State University Physics 52 Heat and Optics

  16. Dispersion of light by a prism. The band of colors is called a spectrum. © 2005 J. F. Becker San Jose State University Physics 52 Heat and Optics

  17. Rainbows are formed by refraction, reflection, and dispersion in water drops: (a) Primary rainbow (b) Secondary rainbow red violet © 2005 J. F. Becker San Jose State University Physics 52 Heat and Optics

  18. The rainbow mechanism again © 2005 J. F. Becker San Jose State University Physics 52 Heat and Optics

  19. Polarization (a) Transverse wave on a string, polarized in the y-direction. (b) Wave polarized in the z-direction. (c) Barrier with vertical slot passes the y- and blocks the z-polarized components. © 2005 J. F. Becker San Jose State University Physics 52 Heat and Optics

  20. Polaroid filter © 2005 J. F. Becker San Jose State University Physics 52 Heat and Optics

  21. Unpolarized light is incident on a polarizing filter Law of Malus: I(f) = Imax cos2f © 2005 J. F. Becker San Jose State University Physics 52 Heat and Optics

  22. Reflected light can be polarized © 2005 J. F. Becker San Jose State University Physics 52 Heat and Optics

  23. qP is the polarizing angle(Brewster’s angle) © 2005 J. F. Becker San Jose State University Physics 52 Heat and Optics

  24. Light striking the water-air interface (a) from the air side(b) from the water side © 2005 J. F. Becker San Jose State University Physics 52 Heat and Optics

  25. Blue sky and red sunset. Scattered light contains mostly blue light (sky) and the white sunlight that has lost some blue appears red (sunset). © 2005 J. F. Becker San Jose State University Physics 52 Heat and Optics

  26. Huygens’ PrincipleEvery point on a wave front may be considered a source of secondary wavelets. © 2005 J. F. Becker San Jose State University Physics 52 Heat and Optics

  27. Reflection © 2005 J. F. Becker San Jose State University Physics 52 Heat and Optics

  28. Refraction © 2005 J. F. Becker San Jose State University Physics 52 Heat and Optics

  29. Dispersion © 2005 J. F. Becker San Jose State University Physics 52 Heat and Optics

  30. Lateral beam displacement (Lab) © 2005 J. F. Becker San Jose State University Physics 52 Heat and Optics

  31. Review © 2005 J. F. Becker San Jose State University Physics 52 Heat and Optics

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