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The Speed of Sound

The Speed of Sound. How can you determine how far a thunder storm is away from you?. Speed of Sound. Much slower than the speed of light (values for air) Light – 300,000,000 m/s Sound – 332 m/s. Calculating Speed of Sound. Assuming no pressure change from atmospheric, V = 332 + 0.59T

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The Speed of Sound

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  1. The Speed of Sound

  2. How can you determine how far a thunder storm is away from you?

  3. Speed of Sound • Much slower than the speed of light (values for air) • Light – 300,000,000 m/s • Sound – 332 m/s

  4. Calculating Speed of Sound • Assuming no pressure change from atmospheric, V = 332 + 0.59T • The speed of sound in air at 0C is 332m/s, the speed increases by 0.59m/s for every degree celsius raised

  5. Practice Question • What is the speed of sound in this room?

  6. Changing the Medium • Sound can travel through solid, liquid or gas • Speed of sound depends on three things: • Density of particles • Closer particles are together – faster vibration can travel • Gas – slow, solid – fast • Sound travels faster on a humid day

  7. Temperature of Particles • Faster the particles move, the quicker the vibration can be transferred • Warm – Fast, Cold – slow • Mass of the Particles • Heavier the particles, the slower the vibration travels

  8. Additional Info • Speed of Sound • Table 7.4 on Pg 278 • Homework • Pg 280 # 1,2 • Pg 279 PP# 1

  9. Reflection of Sound • Echoes – sound that reflects off a barrier and returns to the source • Only use the following formula for echoes: v = 2d/t V – speed of sound d – distance from source to reflective barrier t – time for sound to return

  10. Sonar • Uses sound to detect things underwater • Process called echolocation – by analyzing echoes (reflected sound) we can detect objects

  11. Echolocation • Bats and dolphins use echolocation to find prey and locate things around themselves

  12. Homework • Pg 279 PP # 2,3 • Pg 280 # 5,6

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