How Light Behaves at a Boundary

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Presentation transcript:

How Light Behaves at a Boundary Chapter 17-1 How Light Behaves at a Boundary

The Law of Reflection The angle of incidence equals the angle of reflection The angles are measured to the “normal” line which is perpendicular to the reflecting surface

Regular Reflection Angle of incidence equals the angle of reflection a smooth surface like a mirror causes regular reflection light is reflected back to the observer in parallel beams

Diffuse Reflection Angle of incidence equals angle of reflection Reflection from a rough surface results in diffuse reflection light is reflected into a wide variety of angles

Refraction of Light Refraction occurs when light changes direction at a boundary between media with different optical densities. Remember: wave speeds are different in different media.

Snell’s Law How does the angle of refraction depend on the angle of incidence? Dutch scientist: Willebrord Snell, 1621 Ratio of sines of angles of incidence and refraction are a constant The constant is called the Index of Refraction, n or, in the more general case, written as

Light when it reaches a boundary can be both refracted and reflected:

Refraction: which way will the light bend? More dense to less dense: Bend away from normal Less dense to more dense: Bend toward normal

Light In a less optically dense medium Travels faster has a lower index of refraction a greater angle of refraction bends away from the normal

Light In a more optically dense medium Travels slower has a higher index of refraction a smaller angle of refraction bends toward the normal

Index of Refraction: a measure of the amount that light will bend n of glass is less than n of water —light bends less in glass than in water

Index of Refraction and the Speed of Light in that material Reviewing: Index of Refraction: A measure of the opitical density of a material How much light bends when it passes into the medium How fast light travels in the medium

Index of refraction of water = 1.33

End 17-1