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Topic : Waves Aim : How do waves behave? Do Now : Take out last night’s HW. HW : Ditto – Forms of Energy (in your Energy Notes packet) Energy Castle Learning due tomorrow!!!. A. B. C. Identify each part of a wave labeled in the diagram above. . D.
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Topic: Waves Aim: How do waves behave? Do Now: Take out last night’s HW. HW: Ditto – Forms of Energy (in your Energy Notes packet) Energy Castle Learning due tomorrow!!!
A B C Identify each part of a wave labeled in the diagram above. D
Which wave has the greatest amplitude? • Which wave has the greater wavelength? • Which wave has the greater frequency?
What happens if a wave hits a barrier? 1. Energy may be absorbed. 2. It can bounce off. 3. It can pass through it.
Reflection Bouncing of a wave
Examples: 1. Mirror (light reflecting off the mirror)
http://videos.howstuffworks.com/discovery/30016-assignment-discovery-reflection-and-refraction-video.htmhttp://videos.howstuffworks.com/discovery/30016-assignment-discovery-reflection-and-refraction-video.htm
Refraction Bending of wave as it moves from 1 medium to another
Slows down bends toward normal Less dense (air) more dense (water)
Normal AIR (less dense) Bends toward normal WATER (more dense)
Speeds up bends away from normal More dense (water) less dense (air)
Normal Bends away from normal GLASS (more dense) AIR (less dense)
Have you ever noticed that objects underwater seem closer to the surface than they really are? The light waves reflected from the swimmer’s foot are refracted away from the normal and enter your eyes.
http://videos.howstuffworks.com/discovery/29408-assignment-discovery-refraction-basics-video.htmhttp://videos.howstuffworks.com/discovery/29408-assignment-discovery-refraction-basics-video.htm
Let’s summarize… • Describe how waves can behave. • Explain the difference between reflection and refraction. • Explain why refraction occurs.
Diffraction Bending of waves: around object OR through a narrow opening
AM radio waves have longer wavelengths than FM radio waves do. Because of their longer wavelengths, AM radio waves diffract around obstacles like buildings and mountains. As a result, AM radio reception is often better than FM reception around tall buildings and natural barriers such as hills.
Interference When waves overlap & combine
2 types: 1. Constructive interference = Waves add together (in phase)
When waves combine by constructive interference, the combined wave has a larger amplitude.
2. Destructive interference = Waves subtract from each other (out of phase)
Ex: Sound waves that undergo DI cause loudness to decrease
When two waves with the same amplitude combine by destructive interference, they may cancel each other out.