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Waves, Light, & Sound Chapter 6

Waves, Light, & Sound Chapter 6. Student Learning Objectives Analyze wave motion Recall attributes of electromagnetic waves & sound waves Explain resonance

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What are the basic properties of waves?  A wave is a traveling disturbance that carries energy from place to place.

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Page 1: Waves, Light, & Sound Chapter 6. Student Learning Objectives Analyze wave motion Recall attributes of electromagnetic waves & sound waves Explain resonance

Waves, Light, & Sound

Chapter 6

Page 2: Waves, Light, & Sound Chapter 6. Student Learning Objectives Analyze wave motion Recall attributes of electromagnetic waves & sound waves Explain resonance

Student Learning Objectives• Analyze wave motion

• Recall attributes of electromagnetic waves& sound waves

• Explain resonance

Page 3: Waves, Light, & Sound Chapter 6. Student Learning Objectives Analyze wave motion Recall attributes of electromagnetic waves & sound waves Explain resonance

What are the basic properties of waves?

A wave is a traveling disturbance that carries energy from place to place.

Page 4: Waves, Light, & Sound Chapter 6. Student Learning Objectives Analyze wave motion Recall attributes of electromagnetic waves & sound waves Explain resonance

PracticeWhen a ship that is 100 feet from a sailboat passes the sailboat, does the water travel with the wave from the ship to the sailboat?

100 feet

Page 5: Waves, Light, & Sound Chapter 6. Student Learning Objectives Analyze wave motion Recall attributes of electromagnetic waves & sound waves Explain resonance

All waves begin as a vibration!

When something moves back and forth repeatedly, this is vibration.

Page 6: Waves, Light, & Sound Chapter 6. Student Learning Objectives Analyze wave motion Recall attributes of electromagnetic waves & sound waves Explain resonance

There are two basic types of waves. 

Transverse (perpendicular vibration)Longitudinal (parallel vibration)

Page 7: Waves, Light, & Sound Chapter 6. Student Learning Objectives Analyze wave motion Recall attributes of electromagnetic waves & sound waves Explain resonance

What do you think the vibrational motion is for a water wave?

Page 8: Waves, Light, & Sound Chapter 6. Student Learning Objectives Analyze wave motion Recall attributes of electromagnetic waves & sound waves Explain resonance

Wave PropertiesWavelength

(distance/one cycle)

Period(time for one cycle)

Frequency(cycles per second) f = 1

T

Page 9: Waves, Light, & Sound Chapter 6. Student Learning Objectives Analyze wave motion Recall attributes of electromagnetic waves & sound waves Explain resonance

Wave speed(distance per time)

Amplitude(displacement/energy)

The wavelength or frequency determines the sound we hear or the type of “light” we see.

v = lf

c = lf

Page 10: Waves, Light, & Sound Chapter 6. Student Learning Objectives Analyze wave motion Recall attributes of electromagnetic waves & sound waves Explain resonance

PracticeWhile sailing on the ocean, you notice waves cresting 2 feet above the level horizon. These waves are hitting your boat every 1.5 seconds. As you look out over the water, you estimate the distance between crests to be 5 meters.

Analyze this wave and determinewavelength, period, frequency, speed, & amplitude

Page 11: Waves, Light, & Sound Chapter 6. Student Learning Objectives Analyze wave motion Recall attributes of electromagnetic waves & sound waves Explain resonance

What is an electromagnetic wave?

Electromagnetic radiation is a self-propagating wave.

Changing E Field

Changing B Field

self-propagating

Page 12: Waves, Light, & Sound Chapter 6. Student Learning Objectives Analyze wave motion Recall attributes of electromagnetic waves & sound waves Explain resonance

Type of “light” l f EnergyGamma rays

X-raysUltraviolet

VisibleInfraredRadio

http://www.chromoscope.net/

Page 13: Waves, Light, & Sound Chapter 6. Student Learning Objectives Analyze wave motion Recall attributes of electromagnetic waves & sound waves Explain resonance
Page 14: Waves, Light, & Sound Chapter 6. Student Learning Objectives Analyze wave motion Recall attributes of electromagnetic waves & sound waves Explain resonance

Light SpeedAll electromagnetic waves travel at the same speed in

a vacuum (in space).

In metrics In miles3 x 108 m/s 186,000 miles/sec3 x 105 km/s 670 x 106 mph

Page 15: Waves, Light, & Sound Chapter 6. Student Learning Objectives Analyze wave motion Recall attributes of electromagnetic waves & sound waves Explain resonance

The energy we are now observing from objects in space was generated in the past. 

Sun 8 min.Proxima Centauri 4.2 LY

Sirius 8.6 LYAndromeda

Galaxy 2.5 x 106 LY

Page 16: Waves, Light, & Sound Chapter 6. Student Learning Objectives Analyze wave motion Recall attributes of electromagnetic waves & sound waves Explain resonance

Practice1) A particular ray of red light has a frequency of 4.2 x

1014 Hz. What is the wavelength of this red light? 2) Predict which would have a longer wavelength, radio

waves broadcast at 95.1 MHz or radio waves broadcast at 1220 MHz. Calculate the wavelength of each of these waves to test your prediction.

Page 17: Waves, Light, & Sound Chapter 6. Student Learning Objectives Analyze wave motion Recall attributes of electromagnetic waves & sound waves Explain resonance

ColorsWe interpret particular

wavelengths of visible light as particular colors.  

ROY G BV

Page 18: Waves, Light, & Sound Chapter 6. Student Learning Objectives Analyze wave motion Recall attributes of electromagnetic waves & sound waves Explain resonance

Each color of the visible spectrum corresponds to a specific wavelength, frequency, energy, & temperature.

Red Yellow Blue650 nm 575 nm 475 nm

Low Energy High EnergyCool Hot

Page 19: Waves, Light, & Sound Chapter 6. Student Learning Objectives Analyze wave motion Recall attributes of electromagnetic waves & sound waves Explain resonance

The primary source of infrared radiation is heat or thermal radiation.

A particle of electromagnetic radiation is called a photon.

http://spaceplace.nasa.gov/ir-photo-album/en/

Page 20: Waves, Light, & Sound Chapter 6. Student Learning Objectives Analyze wave motion Recall attributes of electromagnetic waves & sound waves Explain resonance

What are the basic attributes of a sound wave?

A sound wave is a longitudinal wave traveling through matter.

Vibrations cause compressions and rarefactions

Molecules vibrate “side-to-side” (molecules collide)

In metrics In miles343 m/s 770 mph

Page 21: Waves, Light, & Sound Chapter 6. Student Learning Objectives Analyze wave motion Recall attributes of electromagnetic waves & sound waves Explain resonance
Page 22: Waves, Light, & Sound Chapter 6. Student Learning Objectives Analyze wave motion Recall attributes of electromagnetic waves & sound waves Explain resonance

Practice1) If you see lightening and then hear the

thunder 3 seconds later, how far away is the storm?

 2) In a science fiction movie, when a spaceship

explodes, we see and hear the explosion at the same time. What is wrong with this scenario?

Page 23: Waves, Light, & Sound Chapter 6. Student Learning Objectives Analyze wave motion Recall attributes of electromagnetic waves & sound waves Explain resonance

Pitch is an interpretation of sound frequency.

http://www.freemosquitoringtones.org/hearing_test/

Humans 20-20,000 HzDog 67-45,000 HzCat 45-64,000 Hz

Guinea Pig 54-50,000 HzBat 2,000-110,000 Hz

Goldfish 20-3,000 Hz

Page 24: Waves, Light, & Sound Chapter 6. Student Learning Objectives Analyze wave motion Recall attributes of electromagnetic waves & sound waves Explain resonance

Too Loud!Decibels measure the intensity of sound, or the

loudness.

85+ can damage human ears120+ can rupture the ear

Whisper 20 dBConversational Speech 60 dBBiodegradable Sun Chip Bag 95 dBArtillery Fire 140 dB

Page 25: Waves, Light, & Sound Chapter 6. Student Learning Objectives Analyze wave motion Recall attributes of electromagnetic waves & sound waves Explain resonance

Ultrasound

An echo is a reflected wave.

Ultrasound (f = 20,000 Hz +)

Reverberations are the mixing of multiple reflected waves.

Louder Volume/Random Mixing

Page 26: Waves, Light, & Sound Chapter 6. Student Learning Objectives Analyze wave motion Recall attributes of electromagnetic waves & sound waves Explain resonance
Page 27: Waves, Light, & Sound Chapter 6. Student Learning Objectives Analyze wave motion Recall attributes of electromagnetic waves & sound waves Explain resonance

Refraction (Dv) of sound wave occurs when density changes.

Bending

http://www.schoolphysics.co.uk/age16-19/Sound/text/Refraction_of_sound/index.html

Page 28: Waves, Light, & Sound Chapter 6. Student Learning Objectives Analyze wave motion Recall attributes of electromagnetic waves & sound waves Explain resonance

Why does the sound of a train whistle change?

When there is relative motion between a wave source and an observer, wavelengths are altered.

Doppler Effect

Page 29: Waves, Light, & Sound Chapter 6. Student Learning Objectives Analyze wave motion Recall attributes of electromagnetic waves & sound waves Explain resonance

Object moving towards observer, the wave is blue shifted.

l shortenedf increased

(higher pitch)

Object moving away from observer, the wave is red shifted.

l lengthenedf decreased

(lower pitch)

Page 30: Waves, Light, & Sound Chapter 6. Student Learning Objectives Analyze wave motion Recall attributes of electromagnetic waves & sound waves Explain resonance

Doppler Effect

Page 31: Waves, Light, & Sound Chapter 6. Student Learning Objectives Analyze wave motion Recall attributes of electromagnetic waves & sound waves Explain resonance

What is a sonic boom?

A sonic boom is caused by a large change in pressure.

No Speed Mach 1 Mach 2

Page 32: Waves, Light, & Sound Chapter 6. Student Learning Objectives Analyze wave motion Recall attributes of electromagnetic waves & sound waves Explain resonance

The compression waves in a fluid stack up when an object travels at the speed of the waves or faster. (Shock Wave )

Stacked compression spheresSonic boom

Page 33: Waves, Light, & Sound Chapter 6. Student Learning Objectives Analyze wave motion Recall attributes of electromagnetic waves & sound waves Explain resonance
Page 34: Waves, Light, & Sound Chapter 6. Student Learning Objectives Analyze wave motion Recall attributes of electromagnetic waves & sound waves Explain resonance
Page 35: Waves, Light, & Sound Chapter 6. Student Learning Objectives Analyze wave motion Recall attributes of electromagnetic waves & sound waves Explain resonance

Practice1) Why don’t we hear a sonic boom every time a

jet passes overhead? (3 possibilities) 2) Why are there two booms in a sonic boom?

Page 36: Waves, Light, & Sound Chapter 6. Student Learning Objectives Analyze wave motion Recall attributes of electromagnetic waves & sound waves Explain resonance

What happens when waves interfere with each other?

Vibrational amplitudes add together.

Increasein Amplitude

Vibrational amplitudes cancel each other.

Decreasein Amplitude

Page 37: Waves, Light, & Sound Chapter 6. Student Learning Objectives Analyze wave motion Recall attributes of electromagnetic waves & sound waves Explain resonance

Practice1) What is an example of constructive

interference?

2) What is an example of completely destructive interference?

Page 38: Waves, Light, & Sound Chapter 6. Student Learning Objectives Analyze wave motion Recall attributes of electromagnetic waves & sound waves Explain resonance

Sound waves that are out slightly of phase result in beats.

 

Page 39: Waves, Light, & Sound Chapter 6. Student Learning Objectives Analyze wave motion Recall attributes of electromagnetic waves & sound waves Explain resonance

Standing WavesA wave and its reflection

can add to produce a standing wave. 

Page 40: Waves, Light, & Sound Chapter 6. Student Learning Objectives Analyze wave motion Recall attributes of electromagnetic waves & sound waves Explain resonance

ResonanceEach material has its own

natural frequency of vibration.

Resonance occurs when incoming wave vibrations match an object’s natural frequency. Tacoma Narrows

Bridge Collapse (1940)

Page 41: Waves, Light, & Sound Chapter 6. Student Learning Objectives Analyze wave motion Recall attributes of electromagnetic waves & sound waves Explain resonance

Incoming energy is transferred

Vibrational energy increases

Amplitude increases

Resonance

Page 42: Waves, Light, & Sound Chapter 6. Student Learning Objectives Analyze wave motion Recall attributes of electromagnetic waves & sound waves Explain resonance
Page 43: Waves, Light, & Sound Chapter 6. Student Learning Objectives Analyze wave motion Recall attributes of electromagnetic waves & sound waves Explain resonance

Examples of Resonance

BOOMBOOMMusic