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Waves behave in predictable ways.

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Presentation on theme: "Waves behave in predictable ways."— Presentation transcript:

1 Waves behave in predictable ways.
Ch. 15.3 Waves behave in predictable ways.

2 Vocabulary reflection – the bouncing back of a wave after it strikes a barrier refraction – the bending of a wave as it crosses the boundary between two mediums at an angle other than 90o diffraction – the spreading out of waves as they pass through an opening or around the edges of an obstacle interference – the meeting and combining of waves; the adding or subtracting of wave amplitudes that occurs as waves overlap

3 Review How are wavelength and frequency related?
As frequency increases,wavelength will decrease and vice versa. Frequency is the number of waves (or wavelengths) that pass a fixed point in a certain amount of time.

4 Waves interact with materials
Two examples of waves encountering a new medium: Water wave hitting a wall Sound wave moving from air to water

5 Reflection – Describe what happens when a water wave hits the wall of a pool.
A water wave transfers energy. When it arrives at a wall, it pushes against the wall. However, the wall applies an equal and opposite force, sending the wave back in the other direction. The wave is reflected.

6 Refraction Characteristics Examples Non-examples
Occurs because of wave speed differences Examples Light refracting as it enters water Non-examples Light reflecting off a mirror

7 Refraction continued Refraction occurs because one part of a wave enters the new medium before the other parts. The side of the wave that has entered the medium goes slower or faster than the rest of the waves and therefore the wave turns. At a 900 angle, all the parts of the wave will enter the medium at the same time Based on your understanding of how refraction works, explain why there is no refraction when a wave enters a new medium at an exact 90-degree angle.

8 Diffraction The spreading out of waves through an opening or around the edge of an obstacle As a wave passes through an opening, it spreads out or diffraction occurs.

9 Interference Characteristics: Examples: Non-examples:
Can result in waves adding energy or subtracting energy from each other. Examples: 2 sound waves interacting with each other. Non-examples: A wave refracting as it enters a new medium

10 Constructive Interference
It occurs when two waves overlap and their amplitudes add together.

11 Destructive Interference
Happens when identical waves meet but are not aligned, such as sound waves from a stereo speaker. The waves add together in places and cancel in other places.

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