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Wave Behavior. Reflection: Waves bounce off a surface such as a mirror or wall. The law of reflection says that the angle of incidence is equal to the angle of reflection. Waves may reflect from curved or plane surfaces. Refraction.
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Reflection: Waves bounce off a surface such as a mirror or wall. • The law of reflection says that the angle of incidence is equal to the angle of reflection.
Refraction • Waves bend due to a change in speed when entering another medium. Light crossing a boundary between two mediums can slow down or speed up. It can bend toward or away from the normal. The normal is an imaginary lin perpendicular to the boundary.
Light Travelling through a prism White light enters the prism on one side. As different wavelengths of light travel through the prism, they bend differently. As they exit, the different wavelengths of light are seen as colors.
Diffraction: waves change shape when they encounter a barrier Breakers may be built to keep waves from pounding the shore.
Diffraction grating consists of many tiny parallel lines Other objects with parallel lines such as a CD cause diffraction.
What happens to a wave when…. …it runs into another wave? The two waves will pass right through each other in an interference pattern During the time of intersection, the size of the resulting wave is determined by SUPERPOSITION- Adding the displacements from equilibrium together.
Interference When waves add together, constructive interference occurs. When waves cancel out, destructive interference occurs.
In Phase/ Out of Phase • In phase - Waves with crests and troughs arriving at the same time so that they reinforce each other (constructive interference) • Out of phase – wave interference where the trough cancels out some or all of the crest of another wave
Doppler Effect – change in frequency due to the motion of a source or the observer • A red shift refers to longer wavelengths present when objects move away from the observer
Applications of the Doppler Shift • Ultra sound uses harmless high-frequency sound waves to produce an image so we can “see” what’s in our bodies • Why would this be more desirable than X-rays?
Weather reporters, police officers, astronomers, and coaches all use the Doppler effect
Standing Waves Caused by constructive interference
Nodes and Antinodes • In a standing wave, there are points that remain stationary • NO MOTION. • NODES • The bulges that show the greatest AMPLITUDE • Are called ANTINODES
Beats • A “beat frequency” is produced when two objects are vibrating at nearly the same frequency. • Used for tuning orchestral instruments Beat frequency = f1 – f2
Resonance- the tendency of an object to vibrate with a greater amplitude at certain frequencies • One simple example is pushing a child on a swing. • If two objects are vibrating with the same frequency, they are said to be in “resonance” • Examples: two tuning forks- if they are “in resonance”, the vibration of one will produce vibration in the other even if they are not touching.
Resonators • All musical instruments create standing wave forms within them. • Wind instruments: waves of air molecules inside the cavities • Stringed instruments have vibrating strings, but the majority of sound is produced when that vibration is spread to a resonating box, often called the “sound board” or “sound box”
Watch this resonance! • http://www.youtube.com/watch?v=zpUL6sZs6J4