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Waves and diffraction refraction reflection diffraction questions.

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Presentation on theme: "Waves and diffraction refraction reflection diffraction questions."— Presentation transcript:

1 Waves and diffraction refraction reflection diffraction questions

2 Diffraction previous next

3 D T N A F F R O C I I Diffraction is the spreading
out of waves at edges and gaps. All types of waves can be diffracted. The amount of diffraction is affected by the size of the gap and the wavelength. D T N A F F R O C I I previous next

4 Diffraction of water waves
previous next

5 previous next

6 previous next

7 spreading (diffraction)
Small amount of spreading (diffraction) The wavelength of the waves is much smaller than the size of the gap previous next

8 spreading (diffraction)
The wavelength is the same size as the gap so there is very good spreading (diffraction) previous next

9 Diffraction of sound waves
Speed of sound in air = 330m/s Typical frequency = 440Hertz Work out the wavelength of these sound waves Speed = wavelength x frequency Wavelength = speed/frequency Wavelength = 330/440 = 0.75metres About the same size as the width of a door previous next

10 Diffraction of light waves
previous next

11 To get spreading (diffraction) of the light
the gap it passes through has to be very small-because the wavelength of light is very small previous next

12 Long wavelengths diffract more than short wavelengths.
For edges Long wavelengths diffract more than short wavelengths. For gaps The wavelength should be the same size as the gap to get good diffraction. previous next

13 Diffraction of radio waves previous next

14 This transmitter is producing
radio waves previous next

15 Will the people living here be more likely to receive
This house is in the shadow of some hills The aerial is on a pole to try and improve the reception of radio waves. Will the people living here be more likely to receive long wave or short wave radio programmes? previous next

16 Short radio waves are hardly diffracted over the top of the hill.
Short wave radio signals do not reach the aerial previous next

17 Long wavelength radio waves can be
diffracted over the top of the hill. The hill acts rather like an edge causing diffraction Long wavelength radio waves are received by the aerial previous next

18 Top View There is very little diffraction of short wavelength
radio waves when they pass between two hills Top View previous next

19 Long wave radio waves are more likely to have wavelengths
Long wavelength radio waves are more likely to be diffracted when they pass between hills and are more likely to be detected by the aerial. Top View Long wave radio waves are more likely to have wavelengths which are similar to the size of the gap between the hills. previous next

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