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Chapter 17 Reflection & Refraction
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Reflection When light rays bounce back off of a medium boundary
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Refraction The bending of light rays when passing from one medium to another
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Ray A straight line path representing the direction of a light wave
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Regular Reflection Reflection off of a smooth surface which results in reflected wave that are parallel
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Regular Reflection Produce good images Mirrors give regular reflections
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Diffuse Reflection Reflection off of a rough surface which results in reflected waves that are not parallel
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Diffuse Reflection Because light waves are scattered all over the place, no image can be seen
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Law of Reflection The angle of reflection equals the angle of incident
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Law of Reflection = Normal
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Optical Density How fast light passes through a substance as compared to the speed of light in a vacuum.
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Optical Density As optical density increases, the speed in which light passes decreases
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Index of Refraction (n) Ratio of the speed of light in a vacuum to the speed of light in a material
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Indices of Refraction Vacuum: n = 1.00 Air: n = 1.0003 Water: n = 1.33 Ethanol: n = 1.36
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Indices of Refraction Crown glass: n = 1.52 Quartz: n = 1.54 Flint glass: n = 1.61 Diamond: n = 2.42
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Speed of Light in Other Substances c v sub n sub =
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Speed of Light in Other Substances c n sub v sub =
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Solve for the speed of light in each of the following: water (n = 1.33) crown glass (n = 1.52) diamond (n = 2.42)
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Solve for the speed of light in a substance with an optical density of 1.50:
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Snell’s Law The ratio of the sine of the angle of incidence over the sine of the angle of refraction is constant for any substance
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Snell’s Law sin i sin r n =
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Snell’s Law n i sin i = n r sin r
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Snell’s Law n 1 = air n 2 = water ii rr
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Draw a model with a light ray passing from one medium to another more optically dense medium. Include reflection & refraction
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A light ray from air (n air = 1.00) & strikes glass (n glass = 1.52) with an incident angle of 30.0 o. Calculate the angle of refraction:
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A light ray from air (n air = 1.00) strikes glass (n glass = 1.61) with an incident angle of 36.9 o. Calculate the angle of refraction:
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A light ray from air (n air = 1.00) & strikes diamond (n diamd = 2.42) with an incident angle of 45.0 o. Calculate the angle of refraction:
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A light ray incident from air (n air = 1.00) at 45.0 o passes into an unknown substance at 30.0 o. Calculate its index of refraction:
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Total Internal Reflection When light passes from a more optically dense substance to a less optically dense one, the angle of refraction > the angle of incident
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Total Internal Reflection (TIR) When the angle of refraction 90 o, total internal reflection occurs.
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Calculate the angles where TIR occurs when light passes from the following to air: water (n = 1.33) crown glass (n = 1.52) diamond (n = 2.42)
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Applications & Effects Prisms Fiber Optics Mirages Red Sunsets Rainbows
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Prisms When light pass through a prism the various wavelengths of light are dispersed or separated into a spectrum
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Prisms
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Fiber Optics A light wave can pass through a thin glass thread surrounded by a reflective substance. Even if the glass thread is bent, the wave passes through as it reflects off the sides.
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Mirages Light refracted from a far away source looks closer
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Mirages
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Sunsets & Rises Sunlight is refracted as it strikes the atmosphere at great angles bending light towards Earth
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Sunsets Because different wavelengths are refracted differently, colors change
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Sunsets
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Rainbows Sunlight is refracted & reflected by rain droplets dispersing the light into a spectrum
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Rainbows
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Rainbows fall from 40 – 42 o from incident
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Rainbows Rainbows fall from 40 – 42 o from incident
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A light ray from water (n w = 1.33) & strikes diamond (n diamd = 2.42) with an incident angle of 53.0 o. Calculate the angle of refraction:
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Answer the questions at the end of Chapter 16
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Answer the questions at the end of Chapter 17
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A light ray from water (n w = 1.33) & strikes glass (n glass = 1.51) with an incident angle of 53.0 o. Calculate the angle of refraction:
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Calculate the angle of total internal reflection of pukon with n = 3.00
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An incident ray from air strikes quartz (n = 1.50) at an angle of 30 o from normal. Calculate: refl & refr
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