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speaking into a microphone
Well, 'normal' is kind of hard to gauge in this context, and too much diffraction might be a warning sign--best to let a professional decide.
The wavelength of a sound wave affects the diffraction of a sound wave through an open window because the wavelength can determine how fast the diffraction is moving; therfore, causing the sound to be either lower or higher.I think :)
sound waves travel fast than light waves
diffraction, reflection, refraction
speaking into a microphone
Important parts of our experience with sound involve diffraction. The fact that you can hear sounds around corners and around barriers involves both diffraction and reflection of sound.
Well, 'normal' is kind of hard to gauge in this context, and too much diffraction might be a warning sign--best to let a professional decide.
There are countless places that sound energy be found in everyday life. For example, in any set of computer speakers.
The wavelength of a sound wave affects the diffraction of a sound wave through an open window because the wavelength can determine how fast the diffraction is moving; therfore, causing the sound to be either lower or higher.I think :)
diffraction
sound waves travel fast than light waves
diffraction, reflection, refraction
The diffraction of light in the real life can be seen as a rainbow pattern on a DVD or CD. The closely spaced tracks function as diffraction grating. A credit card's hologram is another example diffraction light application in real life. The grating structure on the card produces the desired diffraction pattern.
diffraction wavelength
about diffraction of waves
DiFFRACTiON