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Reflection, Refraction, and Diffraction

Discover the principles of reflection, refraction, and diffraction in this comprehensive guide. Learn about the angle of reflection, angle of incidence, Snell's Law, total reflection, critical angles, and more. Explore how waves interact with different mediums, from mirrors to fiber optics to coastlines. Deepen your understanding of these fundamental optical concepts through clear explanations and practical examples.

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Reflection, Refraction, and Diffraction

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  1. Reflection, Refraction, and Diffraction

  2. Angle of reflection Angle of incidence Reflection • Reflection – wave strikes a surface and is bounced back. • Law of Reflection: angle of incidence = angle of reflection • Assumes smooth surface. • Measured from normal.

  3. Specular vs. Diffuse Reflection • Specular Reflection • Mirror-like • Retains image • Diffuse Reflection • Energy reflects but not image.

  4. speed of light in vacuum = cvacuum speed of light in medium = cmedium Refraction • Refraction – change in wave’s direction as it passes from one medium to another. • Due to differences in speed of wave. • Index of refraction (n) – measure of how much a wave’s speed is reduced in a particular medium. • Most frequently applied to light. • nmedium = • Speed of light in vacuum = 300,000 km/s.

  5. Refraction

  6. Refraction • The refractive index of glass is 1.50. What is the speed of light in glass? • n = cvacuum / cmedium • 1.50 = (300,000 km/s) / (cmedium) • cmedium = (300,000 km/s) / 1.50 • cmedium = 200,000 km/s

  7. Refraction • The refractive indices of several materials are: • water = 1.33 • air = 1.00 • diamond = 2.42 • glycerin = 1.47 • Through which material does light travel the fastest? The slowest?

  8. Angle of Incidence Angle of Reflection 1 n1 n2 2 Angle of Refraction Snell’s Law • As light waves pass from one medium to another, they also change direction. • Snell’s Law: • n1sin1 = n2sin2

  9. Snell’s Law • As a wave passes from low n to high n, it bends toward the normal. • As a wave passes from high n to low n, it bends away from the normal. • If n is the same for both media, the wave does not bend.

  10. 30º ? Snell’s Law • A light wave passes from air (n = 1) to water (n = 1.33). If the angle of incidence is 30º, what is the angle of refraction? • n1sin1 = n2sin2 • (1)(sin30º) = (1.33)(sin2) • 0.5 = (1.33)(sin2) • sin2 = 0.376 • 2 = 22.1º

  11. Snell’s Law • A light beam passes from water (n = 1.33) into diamond (n = 2.42). The beam is incident upon the interface at an angle 56º from the normal. What is the refracted angle of the light? • n1sin1 = n2sin2 • (1.33)(sin56º) = (2.42)(sin2) • 1.10 = (2.42)(sin2) • sin 2 = 0.455 • 2 = 27.1º

  12. Snell’s Law • A light beam exits a fiber optic cable (n = 1.42) at an incident angle of 22.5º. At what angle does the light beam enter the air (n = 1)? • n1sin1 = n2sin2 • (1.42)(sin22.5º) = (1)(sin2) • 0.543 = sin2 • 2 = 32.9º

  13. Total Reflection • When a wave passes from a low n to a high n, the angle increases. • At a certain incident angle, the refractive angle = 90º. • Critical angle (c) • For light passing from low n to high n, the incident angle above which there is no refraction. • Above c all light is reflected back into the incident medium.

  14. n2 n2 n1 n1 Critical Angle • We can work out the formula for critical angle: • We know that the refracted angle is 90º, so: • n1sinc= n2(sin90º) • sin90º = 1 • n1sinc = n2 • sinc = • c = arcsin

  15. Critical Angle • What is the critical angle for the water-air boundary? (nwater = 1.33 and nair = 1) • c = arcsin(n2 / n1) • c = arcsin(1 / 1.33) • c = arcsin(0.752) • c = 48.8º

  16. 2 = 41.7º 2 = 70.1º 1 = 60º Total Reflection! 1 = 45º 1 = 30º Critical Angle

  17. Fiber Optics • Fiber optics cables make use of total reflection to keep a beam of light trapped inside the cable, even around bends.

  18. Diffraction • Diffraction – The bending of waves around an obstacle. • Can let you hear sounds the originate behind an obstacle. • Explains how waves can shape coastlines. • Explains the diffraction pattern produced in the double-slit experiment.

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