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Waves, Sound, and Light MENU Mechanical Waves Wave Properties Electromagnetic Waves Sound Speed of Sound Light Transparent, Translucent, Opaque Color Click above to be taken to that section of the Power Point

Waves, Sound, and Light MENU Mechanical Waves Wave Properties Electromagnetic Waves Sound Speed of Sound Light Transparent, Translucent, Opaque Color Click

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Page 1: Waves, Sound, and Light MENU Mechanical Waves Wave Properties Electromagnetic Waves Sound Speed of Sound Light Transparent, Translucent, Opaque Color Click

Waves, Sound, and Light MENU

Mechanical Waves

Wave Properties

Electromagnetic Waves

Sound

Speed of Sound

Light

Transparent, Translucent, Opaque

Color

Click above to be taken to that section of the Power Point

Page 2: Waves, Sound, and Light MENU Mechanical Waves Wave Properties Electromagnetic Waves Sound Speed of Sound Light Transparent, Translucent, Opaque Color Click

Waves

• 2 types of waves– Mechanical

• Use matter to transfer energy through a medium

– Electromagnetic• Do not need matter to transfer energy

Page 3: Waves, Sound, and Light MENU Mechanical Waves Wave Properties Electromagnetic Waves Sound Speed of Sound Light Transparent, Translucent, Opaque Color Click

Mechanical Waves

• Waves that REQUIRE a medium for the energy to travel

Examples: water waves, sound waves, energy moving through a slinky. What else?

Page 4: Waves, Sound, and Light MENU Mechanical Waves Wave Properties Electromagnetic Waves Sound Speed of Sound Light Transparent, Translucent, Opaque Color Click

Mechanical Waves

• Use matter (Medium) to transfer energy.

• The energy is transferred from particle to particle.

• SOUND IS A MECHANICLE WAVE

Page 5: Waves, Sound, and Light MENU Mechanical Waves Wave Properties Electromagnetic Waves Sound Speed of Sound Light Transparent, Translucent, Opaque Color Click

There Are Two Basic Types of Mechanical Waves.

Transverse Waves• The energy traveling

through the wave causes the particles to move at a right angle to the direction of the energy.

• This is what we usually draw when representing waves.

• Ripples on a pond are an example of these.

Page 6: Waves, Sound, and Light MENU Mechanical Waves Wave Properties Electromagnetic Waves Sound Speed of Sound Light Transparent, Translucent, Opaque Color Click

The Second type of Mechanical Wave

Compressional Waves • In this type the

particles move in the same direction as the energy.

• Sound is a Compressional Wave

Page 7: Waves, Sound, and Light MENU Mechanical Waves Wave Properties Electromagnetic Waves Sound Speed of Sound Light Transparent, Translucent, Opaque Color Click

Waves, Sound, and Light MENU

Mechanical Waves

Wave Properties

Electromagnetic Waves

Sound

Speed of Sound

Light

Transparent, Translucent, Opaque

Color

Click above to be taken to that section of the Power Point

Page 8: Waves, Sound, and Light MENU Mechanical Waves Wave Properties Electromagnetic Waves Sound Speed of Sound Light Transparent, Translucent, Opaque Color Click

Wave Properties

• Amplitude

• Wavelength

• Frequency

• Human perception of amplitude – loudness

• Human perception of frequency – pitch

Page 9: Waves, Sound, and Light MENU Mechanical Waves Wave Properties Electromagnetic Waves Sound Speed of Sound Light Transparent, Translucent, Opaque Color Click

Transverse Waves

• Crest – very top of wave• Trough – very bottom of wave• Amplitude – Distance between resting position and

crest/trough• Wavelength – Distance from the top of one crest to the

next crest• Frequency – Number of wavelengths to pass by a given

point in 1 second– 2.5 in picture at right

Page 10: Waves, Sound, and Light MENU Mechanical Waves Wave Properties Electromagnetic Waves Sound Speed of Sound Light Transparent, Translucent, Opaque Color Click

Transverse Wave Examples

Page 11: Waves, Sound, and Light MENU Mechanical Waves Wave Properties Electromagnetic Waves Sound Speed of Sound Light Transparent, Translucent, Opaque Color Click

Transverse Waves (cont.)

• Frequency and Pitch– As frequency increases pitch gets higher– As frequency decreases pitch gets lower

Page 12: Waves, Sound, and Light MENU Mechanical Waves Wave Properties Electromagnetic Waves Sound Speed of Sound Light Transparent, Translucent, Opaque Color Click

Transverse Waves (cont.)

• Frequency and Wavelength– As frequency increases wavelength decreases– As frequency decreases wavelength increases

Page 13: Waves, Sound, and Light MENU Mechanical Waves Wave Properties Electromagnetic Waves Sound Speed of Sound Light Transparent, Translucent, Opaque Color Click

Compressional Waves

• Medium travels slightly back and forth in the same direction as the energy is moving

Page 14: Waves, Sound, and Light MENU Mechanical Waves Wave Properties Electromagnetic Waves Sound Speed of Sound Light Transparent, Translucent, Opaque Color Click

Waves, Sound, and Light MENU

Mechanical Waves

Wave Properties

Electromagnetic Waves

Sound

Speed of Sound

Light

Transparent, Translucent, Opaque

Color

Click above to be taken to that section of the Power Point

Page 15: Waves, Sound, and Light MENU Mechanical Waves Wave Properties Electromagnetic Waves Sound Speed of Sound Light Transparent, Translucent, Opaque Color Click

Electromagnetic Waves

• Waves that DO NOT require a medium for the energy to travel

• Examples: Light, radio waves, x-rays, gamma rays, etc. All waves on the electromagnetic spectrum

Page 16: Waves, Sound, and Light MENU Mechanical Waves Wave Properties Electromagnetic Waves Sound Speed of Sound Light Transparent, Translucent, Opaque Color Click

Electromagnetic Waves

• These waves do not need matter to travel

• Difference between the different waves is wavelength

• EM spectrum illustrates the differences

Page 17: Waves, Sound, and Light MENU Mechanical Waves Wave Properties Electromagnetic Waves Sound Speed of Sound Light Transparent, Translucent, Opaque Color Click

Electromagnetic Waves (cont.)

• Radio – listen to your favorite station

• Microwaves – call your friends

• Infrared – night vision• Visible – you can see this

presentation• Ultraviolet – tanning• X-ray – see broken bones• Gamma – kill cancerous

cells

Page 18: Waves, Sound, and Light MENU Mechanical Waves Wave Properties Electromagnetic Waves Sound Speed of Sound Light Transparent, Translucent, Opaque Color Click

Waves, Sound, and Light MENU

Mechanical Waves

Wave Properties

Electromagnetic Waves

Sound

Speed of Sound

Light

Transparent, Translucent, Opaque

Color

Click above to be taken to that section of the Power Point

Page 19: Waves, Sound, and Light MENU Mechanical Waves Wave Properties Electromagnetic Waves Sound Speed of Sound Light Transparent, Translucent, Opaque Color Click

Sound

• Sound is a mechanical wave (requires a medium to travel) and a compressional wave (molecules colliding)

• The medium sound travels through are molecules when they collide

Page 20: Waves, Sound, and Light MENU Mechanical Waves Wave Properties Electromagnetic Waves Sound Speed of Sound Light Transparent, Translucent, Opaque Color Click

Sound

• Sound is produced when an object vibrates.• When an object vibrates it exerts a force on the

surrounding air• Loudness of a sound is recorded in decibels• As a sound gets louder, the amplitude of the wave

increases

Page 21: Waves, Sound, and Light MENU Mechanical Waves Wave Properties Electromagnetic Waves Sound Speed of Sound Light Transparent, Translucent, Opaque Color Click

Sound

• The moving air mass carries the sound of the vibration to your ear.

• The air is the MEDIA that it travels through.

• Medium is what the wave travels through (ex. solid, liquid, gas)

• NO MEDIUM NO SOUND!!!!

Page 22: Waves, Sound, and Light MENU Mechanical Waves Wave Properties Electromagnetic Waves Sound Speed of Sound Light Transparent, Translucent, Opaque Color Click

The Echo

• An echo is when a sound wave hits a hard surface and bounces back, causing you to hear the sound a second time

• Sonar uses echoes. It is a measure of how long it takes the echo to return to the source of the sound. Sonar can tell you how far an object is from you.

Page 23: Waves, Sound, and Light MENU Mechanical Waves Wave Properties Electromagnetic Waves Sound Speed of Sound Light Transparent, Translucent, Opaque Color Click

Waves, Sound, and Light MENU

Mechanical Waves

Wave Properties

Electromagnetic Waves

Sound

Speed of Sound

Light

Transparent, Translucent, Opaque

Color

Click above to be taken to that section of the Power Point

Page 24: Waves, Sound, and Light MENU Mechanical Waves Wave Properties Electromagnetic Waves Sound Speed of Sound Light Transparent, Translucent, Opaque Color Click

Speed of Sound

• The speed of sound is different depending on the medium it travels through

Page 25: Waves, Sound, and Light MENU Mechanical Waves Wave Properties Electromagnetic Waves Sound Speed of Sound Light Transparent, Translucent, Opaque Color Click

Speed of Sound

• Sound travels at different speeds through different medium

• The more dense a material the faster sound travels– 346 m/s in warm air– 5,000 m/s in aluminum– 3,240 m/s in gold

Page 26: Waves, Sound, and Light MENU Mechanical Waves Wave Properties Electromagnetic Waves Sound Speed of Sound Light Transparent, Translucent, Opaque Color Click

Speed of Sound

• Sound travels better through high-density materials– The closer the molecules are together, the faster they

can collide and transfer energy

Page 27: Waves, Sound, and Light MENU Mechanical Waves Wave Properties Electromagnetic Waves Sound Speed of Sound Light Transparent, Translucent, Opaque Color Click

Waves, Sound, and Light MENU

Mechanical Waves

Wave Properties

Electromagnetic Waves

Sound

Speed of Sound

Light

Transparent, Translucent, Opaque

Color

Click above to be taken to that section of the Power Point

Page 28: Waves, Sound, and Light MENU Mechanical Waves Wave Properties Electromagnetic Waves Sound Speed of Sound Light Transparent, Translucent, Opaque Color Click

Light

• Properties of Light

Page 29: Waves, Sound, and Light MENU Mechanical Waves Wave Properties Electromagnetic Waves Sound Speed of Sound Light Transparent, Translucent, Opaque Color Click

Light

• EM wave that travels transversely (up and down motion)

• Primary colors are red, green and blue

• White light is made up of all colors

• Black is the absence of color

Page 30: Waves, Sound, and Light MENU Mechanical Waves Wave Properties Electromagnetic Waves Sound Speed of Sound Light Transparent, Translucent, Opaque Color Click

Light (cont.)

• We see colors because objects reflect light

• If you see a color, that specific color is being reflected while the rest are being absorbed (taken in) by the medium

• White reflects all colors

• Black absorbs all colors

Page 31: Waves, Sound, and Light MENU Mechanical Waves Wave Properties Electromagnetic Waves Sound Speed of Sound Light Transparent, Translucent, Opaque Color Click

What is Light?• It is a transverse wave that carries energy

• It is a small part of the ElectroMagnetic Spectrum

• Because it is part of the electromagnetic spectrum, it can travel through a vacuum (space)

Page 32: Waves, Sound, and Light MENU Mechanical Waves Wave Properties Electromagnetic Waves Sound Speed of Sound Light Transparent, Translucent, Opaque Color Click

How do you see the things around you?

Page 33: Waves, Sound, and Light MENU Mechanical Waves Wave Properties Electromagnetic Waves Sound Speed of Sound Light Transparent, Translucent, Opaque Color Click

Without light, there is no sight!

Page 34: Waves, Sound, and Light MENU Mechanical Waves Wave Properties Electromagnetic Waves Sound Speed of Sound Light Transparent, Translucent, Opaque Color Click

Light REFLECTS off of objects.

Page 35: Waves, Sound, and Light MENU Mechanical Waves Wave Properties Electromagnetic Waves Sound Speed of Sound Light Transparent, Translucent, Opaque Color Click

How we see

• When light strikes an object the light bounces off of the object and then into our eye.

• For example, the light from the this projector hits the screen and then is reflected to your eye.

Page 36: Waves, Sound, and Light MENU Mechanical Waves Wave Properties Electromagnetic Waves Sound Speed of Sound Light Transparent, Translucent, Opaque Color Click

Waves, Sound, and Light MENU

Mechanical Waves

Wave Properties

Electromagnetic Waves

Sound

Speed of Sound

Light

Transparent, Translucent, Opaque

Color

Click above to be taken to that section of the Power Point

Page 37: Waves, Sound, and Light MENU Mechanical Waves Wave Properties Electromagnetic Waves Sound Speed of Sound Light Transparent, Translucent, Opaque Color Click

Transparent, Translucent, Opaque

Page 38: Waves, Sound, and Light MENU Mechanical Waves Wave Properties Electromagnetic Waves Sound Speed of Sound Light Transparent, Translucent, Opaque Color Click

Opaque, Translucent, Transparent

• Objects that do not let light pass through them are opaque. Ex. Walls, your desk, the science book

• Objects that let light pass clearly through them are transparent. Ex. Windows, plastic wrap, eye glass lenses

• Objects that let only some light pass through are translucent. Ex. waxed paper, frosted glass

Page 39: Waves, Sound, and Light MENU Mechanical Waves Wave Properties Electromagnetic Waves Sound Speed of Sound Light Transparent, Translucent, Opaque Color Click

Waves, Sound, and Light MENU

Mechanical Waves

Wave Properties

Electromagnetic Waves

Sound

Speed of Sound

Light

Transparent, Translucent, Opaque

Color

Click above to be taken to that section of the Power Point

Page 40: Waves, Sound, and Light MENU Mechanical Waves Wave Properties Electromagnetic Waves Sound Speed of Sound Light Transparent, Translucent, Opaque Color Click

Color

Page 41: Waves, Sound, and Light MENU Mechanical Waves Wave Properties Electromagnetic Waves Sound Speed of Sound Light Transparent, Translucent, Opaque Color Click

COLORS

• The suns light might appear white, but it is a mixture of colors.

• White light is produced when you mix the colors of the rainbow together.

Page 42: Waves, Sound, and Light MENU Mechanical Waves Wave Properties Electromagnetic Waves Sound Speed of Sound Light Transparent, Translucent, Opaque Color Click

Light Color Mixing

• The primary colors of light are RED, BLUE and GREEN

Page 43: Waves, Sound, and Light MENU Mechanical Waves Wave Properties Electromagnetic Waves Sound Speed of Sound Light Transparent, Translucent, Opaque Color Click

So why do we see different colors?

• When white light hits an object some of it may be absorbed by the object while the rest of the light is reflected. The colors we see are the reflected colors.

Page 44: Waves, Sound, and Light MENU Mechanical Waves Wave Properties Electromagnetic Waves Sound Speed of Sound Light Transparent, Translucent, Opaque Color Click

Waves, Sound, and Light MENU

Mechanical Waves

Wave Properties

Electromagnetic Waves

Sound

Speed of Sound

Light

Transparent, Translucent, Opaque

Color

Click above to be taken to that section of the Power Point