Hi guys,
The formula for wavelength is LAMBDA = Speed x Period. So LAMBDA is the PERIOD times a coefficient.
But when it is shown by a sine drawing, it seems that wavelength is equal to the priod.
So am I right by saying that the speed coefficient in the LAMBDA formul is saying that the LAMBDA just is for outsides envirenment? Is it makes sense? For instance is the LAMBDA translatable for a sine generator circuit like a function generator? Or it is used for instance when the function generator is connected to a speaker so that show the distance the wave travel in the air?
Anyway I have a trouble to translate the wavelendth in real world for an speaker. I know what it is , but I am not sure how a100Hz sine wave at the ouput of a speaker having a wavelength more than 3 meter is detected by our ear. It is a really LONG wavelengh for our ears
The formula for wavelength is LAMBDA = Speed x Period. So LAMBDA is the PERIOD times a coefficient.
But when it is shown by a sine drawing, it seems that wavelength is equal to the priod.
So am I right by saying that the speed coefficient in the LAMBDA formul is saying that the LAMBDA just is for outsides envirenment? Is it makes sense? For instance is the LAMBDA translatable for a sine generator circuit like a function generator? Or it is used for instance when the function generator is connected to a speaker so that show the distance the wave travel in the air?
Anyway I have a trouble to translate the wavelendth in real world for an speaker. I know what it is , but I am not sure how a100Hz sine wave at the ouput of a speaker having a wavelength more than 3 meter is detected by our ear. It is a really LONG wavelengh for our ears
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