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Warm Up 1. How are longitudinal wavelengths measured?

Published byLorin McKenzie Modified over 5 years ago

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Presentation on theme: "Warm Up 1. How are longitudinal wavelengths measured?"— Presentation transcript:

1 Warm Up 1. How are longitudinal wavelengths measured?
2. How do you find the frequency of a wave? 3. Wave speed depends on the ____________. 4. What type of objects do wave travel fast in? How about slow?

2 Chapter 14-2, 14-3 Wave Interactions

3 Doppler Effect: Pitch is determined by frequency
Pitch – High or low the sound is Frequency changes when the source of the wave is moving

4

5 Doppler Effect Doppler Effect – Change in the frequency (pitch) of a wave when the source or the observer is moving

6

7

8 Reflection Reflection - a wave strikes an object and bounces off of it
All waves: Light Sound Water

9 Wave Interactions: Reflection – Bouncing back of a wave (Sound, Light, or Heat) Waves bend around an edge

10 Echoes Sound waves bouncing back (or reflecting) towards you.
Yelling in a cave!

11

12 The Law of Reflection Incident beam – light beam that strikes the mirror Reflected beam – light beam that bounces off the mirror

13 The Law of Reflection Normal – line perpendicular to surface of the mirror Angle of incidence = Angle of refection

14

15 Refraction As light changes mediums – it changes speed
Refraction - bending of a wave caused by a change in its speed as it moves from one medium to another

16 Wave Interaction: Different substances have different wave speeds

17 Refraction

18 Refraction

19

20 Diffraction Diffraction - causes a wave to change direction and bend around it. Waves pass around an object.

21 Wave Diffraction

22

23 Diffraction of Radio Waves
AM radio waves - longer wavelengths FM radio waves – shorter wavelength AM gets better reception

24

25 Interference Interference - Two or more waves overlap and combine to form a new wave

26 Constructive Interference
Waves add together Crests of two or more transverse waves arrive at the same place at the same time and overlap

27 Constructive Interference
Amplitude = sum of 2 waves

28

29 Destructive Interference
Destructive interference - waves subtract from each other as they overlap

30

31 Standing Waves Standing waves – a wave pattern of vibration that simulates a wave that is standing still

32 Nodes and Anti-Nodes

33 Standing Waves: A pattern of vibration that simulates a wave that is standing still Nodes – Point that separates the loops in a standing wave and has no vibration – Complete Destructive Interference Antinodes – Points of maximum vibration – Complete Constructive Interference

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