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Reflection Law of Reflection
The angle of incidence equals the angle of reflection The incident and reflected rays lie in the same plane with the normal.
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Image position You think in straight lines!
The image is located behind the mirror.
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Diffuse vs Specular Reflection
Diffuse Reflection Light incident upon a rough surface Law of reflection still holds; Normals are not parallel. Specular Reflection Mirror like reflection All Normals are parallel
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Refraction Sudden change in direction of a wave as it changes speed.
It must enter obliquely to change direction! Which direction does it bend as it slows?
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Refraction In both cases the speed of the wave has decreased. This is indicated by the decrease in wavelength!
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Refraction In which medium does light travel faster? (glass rod appears bent)
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Speed of light v is the speed of light in the new medium.
c= 3.0 x 108 m/s As the index increases the speed decrease. Draw a graph for index vs. speed. n is the absolute index of refraction. This is a measure of optical density. n is defined as the ratio of the speed of light in a vacuum to the speed of light in a new medium.
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Refraction n1- from n2 - into
When a wave slows down it bends closer to the normal. {less to more – toward} n2>n1 When a wave speed up it bends away from the normal. {BLA – Big ―› Little – Away} n2<n1
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Refraction If light rays bend closer to the normal when slowing down, why does the glass rod seem to bend away form the normal?
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Apparent Depth Diverging rays enter your eyes.
You “think” in Straight Lines. A virtual image appears to come from point y R – Real Depth A – Apparent Depth
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Apparent Depth If the chest is 20 m below the surface at what depth will the image appear? Assume nsea water = 1.34
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Snell’s Law n1sinθ1 = n2sin θ2 v1/v2 = λ1 / λ2
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Example A monochromatic light ray f= 5.09 x 1014 Hz is incident on medium X at 55˚. The absolute index of refraction for material X is 1.66 What is material X? Determine the angle of refraction. Determine the speed of light in medium X.
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Ex: Solution The index of 1.66 is Flint Glass
To find the angle of refraction use Snell’s Law θ2= 30˚ To find the speed use n=c/v. v = 1.8 x 108 m/s
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Dispersion The breaking up of white light into its component frequencies.
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Refractive & Frequency
The refractive index depends on the medium & the frequency of light. Each frequency “color” propagates at a different speed and bends a different amount.
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Critical Angles Def: The angle of incidence when the angle of refraction is 90 degrees. Only exist when you have the BLA’s Big to Little Away When a light ray exceeds the critical angle it undergoes total internal reflection (TIR)
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