1 / 19

Wave Interference

Wave Interference. Physics Ch 12. Sec. 4. - When two waves come together they can occupy the same space  Superposition – multiple waves occupying the same space Mechanical and electromagnetic waves can do this. Wave Interactions. Interferance –

anisa
Download Presentation

Wave Interference

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. Wave Interference Physics Ch 12. Sec. 4

  2. - When two waves come together they can occupy the same space  Superposition – multiple waves occupying the same space • Mechanical and electromagnetic waves can do this

  3. Wave Interactions Interferance – combination of 2 or more waves  usually produces one wave (bigger if in phase) (smaller if out of phase)

  4. Types of Interference 1. Constructive Interference – individual displacements on the same side of equilibrium add together to form a resultant wave (in phase) - If two pulses move toward each other and are on the same side of equilibrium their amplitudes add together to form a larger wave

  5. Wave Interactions Constructive interference – when waves combine to create a bigger wave  sum of the amplitudes of the waves

  6. - They move through and past each other - Superposition principle – method of summing the waves to get a resultant wave

  7. Wave Interactions 2. Destructive interference – when waves combine to form a smaller or no wave  some may completely cancel out  difference between the amplitudes of the waves

  8. 2. Destructive interference – individual displacements on opposite sides of equilibrium are added together to form a resultant wave (out of phase)

  9. Reflection - When a wave strikes a boundary it bounces (reflects) off of that boundary

  10. 1. Free boundary – pulse is reflected identical to the pulse • The rope / spring / medium is free to move up and down at the boundary

  11. 2. Fixed boundary – pulse is reflected but is inverted  The rope / spring / medium is tightly secured at the boundary and is not free to move up or down

  12. Standing waves • - Wave pattern that appears to stand still from waves traveling in opposite directions •  Waves at same frequency •  Creates spots of zero displacement

  13. - Node – point on a wave that stands still due to total destructive interference always occurring • Antinode – point on a standing wave halfway between two nodes (point of largest displacement) *Only certain frequencies produce standing waves

  14. Wave Behaviors A. Refraction - bending of waves as they pass from one medium to another

  15. Wave Behaviors B. Diffraction – bending of waves around an edge

  16. Wave Interactions - Wave speed depends on the medium ex. Sound  moves fastest through solids  moves moderately fast through liquids  moves slowest through air/gases (340 m/s) - due to movement of molecules in the medium

  17. Wave Interactions Light travels at a constant speed 3x 108 m/s = 300,000,000 m/s (186,000 miles/sec.) - symbolized as “c”

More Related