1 / 30

Waves

Waves. Part 1: Kinds of Waves. What is a Wave?. A wave is a disturbance in space/time that moves energy in a straight line from one place to another . When waves move through matter, we call that matter the wave’s medium. A medium can be a solid, liquid, or a gas .

ellery
Download Presentation

Waves

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Waves

  2. Part 1: Kinds of Waves

  3. What is a Wave? • Awaveis a disturbance in space/time that moves energy in a straight linefrom one place to another. • When waves move through matter, we call that matter the wave’s medium. • A medium can be a solid, liquid, or a gas.

  4. Light waves can move through empty space and do not need any medium at all. • When energy waves move through a medium, the medium is disturbed, but it stays in the same place as the wave travels through it. • In the ocean, when a wave passes, the water molecules only move in small circles!

  5. A wave where the medium moves at right angles to the direction of the wave is called a transverse wave. Ocean waves andlight waves are both transverse waves. Energy moves in this direction Medium moves in this direction Types of Waves : Transverse

  6. Parts of a Transverse Wave • The crestis the highest point of a transverse wave, and the troughis its lowest point. • One wavelength includes one complete crest plus one complete trough. • Theamplitudeof a transverse wave is the distance from the normal to a crestor from the normal to a trough. • The more energy a wave has, the greater its amplitude.

  7. Crest Crest Amplitude Wavelength Normal Amplitude Wavelength Trough Trough Parts of a Transverse Wave

  8. Types of Waves: Longitudinal • A longitudinal wavemakes the medium move parallelto the direction in which the wave is traveling. • Soundtravels in longitudinal waves. • Unlike some transverse waves that can travel through empty space, longitudinal waves MUST have a medium to travel through. • This is why there is no sound in outer space.

  9. Parts of a Longitudinal Wave • The part of a longitudinal wave where the particles of the medium are close together is a compression. • The part of a longitudinal wave where the particles of the medium are far apart is a rarefaction. • One wavelength includes one complete compressionplus one complete rarefaction.

  10. Rarefactions Compressions Wavelength Wavelength Parts of a Longitudinal Wave How many complete wavelengths are shown here? 4

  11. Part 2: Wave Properties (Characteristics)

  12. When you talk about a “big wave” at the beach, you are describing the wave’s amplitude. If you describe how many waves pass you in a given time, you are describing the frequencyof the waves. For transverse waves, the distance from crest to crest or trough to troughis a wavelength. For a longitudinal wave, a wavelengthis the distance between compressions or between rarefactions. It is measured in meters. Wave Properties

  13. Wave Properties

  14. Wave Amplitude • If you are looking at transverse waves (think ocean waves), amplitude is the vertical (up and down) distance from the normal to the crest or trough. • As you increase a wave’s energy, its amplitude also increases. • In other words,high energy waves have high amplitude, and low energy waves have low amplitude.

  15. Wave Amplitude

  16. The frequency of a wave is the number of waves that pass by a place in a certain length of time. The most common unit for frequency is the Hertz (Hz), which means “waves per second.” Wave Frequency

  17. Notice that both waves below have the same amplitude, and therefore the same amount of energy. Wave Frequency

  18. Wave speed measures how fast the wave is moving toward you. The metric unit most often used to measure wave speed is meters second. Wave speed = frequency x wavelength In the open ocean, tsunami waves can travel at speeds of up to 550 miles per hour (890 km/hour)—as fast as a jet plane! Wave Speed

  19. Math Problems with Waves • Wave Speed, Frequency, and are related by the formula: speed = frequency x wavelength • Solve these. Show your work in KFCA form. If a wave’s speed is 200 m/s and its frequency is 650 Hz, what is its wavelength? A wave traveling at a speed of 3500 m/s has a wavelength of 14 meters. What is its frequency? A wave has a frequency of 250 Hz and a wavelength of 0.3 m. What is its speed? A sound traveling at 340 m/s has a frequency of 8500 Hz. What is its wavelength?

  20. Answers to Problems

  21. Part 3: Wave Interactions

  22. Wave Interactions: Energy and Change • When a wave runs into another wave or into an object, the wave’s energy changes. • The change in the wave’s energy makes the wave’s properties change too. • Wave properties include: • speed • Amplitude • Wavelength • frequency • When an ocean wave hits the shore, its amplitude, speed, or wavelength might change.

  23. Wave Interactions: Energy and Change • Other changes that might happen are a change in the wave’s direction, or it might break apart and then re-form as a group of small waves. • Wave interactions affect ALL kinds of waves: • ocean waves • light waves • sound waves! • Kinds of wave interactions include: • reflection • Refraction • Diffraction • interference

  24. Wave Interactions: Reflection • Reflectionhappens when a wave hits a surface and bounces off. • The angle of the incoming (incident) wave equals the angle of the outgoing (reflected) wave. This is the Law of Reflection

  25. Wave Interactions: Refraction • Refractionis the bending of a wave because it changes speed when it goes through different media. • Sounds travel fastest in solids, slower in liquids, and slowest in gaseslike air. • Sound cannot travel at all through a vacuum like space. • Light travels fastestin a vacuum (outer space)slower through a gas, even slower through a liquid, and slowest through a solidlike glass.

  26. Wave Interactions: Refraction • Waves change speedwhen they pass from one medium to another. The green fish seems to be in a different place because the light waves bend when they change from water to air.

  27. Wave Interactions: Diffraction • The bending of a wave as it touches the edge of a barrier is called diffraction. • When waves are diffracted at the edge of a barrier, speed and directionmay change, but wavelength and frequencymight not change. • Diffraction allows you to hear sounds around corners. • Diffraction glasses split white light intorainbow colors.

  28. Incoming wave crests outgoing wave crests Wave Interactions: Diffraction

  29. Wave Interactions: Interference • The effect of two or more waves interacting with each other is called interference. • There are two kinds of interference: constructive and destructive. • Tsunamis are caused by constructive interference ! ! ! • When the crests and troughs of the interacting waves are in the same place at the same time, the result is a larger wave. • This is constructive interference.

  30. Wave Interactions: Interference • When the crest of one wave meets the trough of another wave, the result is a smaller wave. This is destructive interference. • In poorly built auditorium, destructive interference between sound waves makes it hard to hear what’s happening on stage.

More Related