That's not possible because wavelength and frequency (cycles per second) are inversely related. So if we have a very wide wavelength we'll get a very low frequency.
Actually, if you change the medium from air to diamond, sound will travel 35 times faster. Then the wavelength for any given pitch will be 35 times longer than that pitch would if traveling through air. But a 35-fold increase in wavelength would likely be the maximum since there is no substance which transmit sound faster than diamond (which I'm aware of).
As I understand it,@@bobbritt5904, if you lowered the temperature of that diamond you'd be able to get an even longer wavelength for that same pitch/frequency
The lady's voice sounds beautifully and adorns the explanation!
The cartoon character is weird but I really like the explanation. Now certain things in my Acoustics class make sense. :)
This is way better than NASA's video interpretation of the science of sound 👍
The Great Yellow Ear Face Sun Goddess has spoken
Interesting and a good educational vid. But what in the world is that "thing" supposed to be?
A sunflower with giant ears? What the hell were you thinking?
Engineers like drugs too
As I watch this I'm wondering if a wave can have a very wide wavelength but cycle very fast
my guess is no. Because the velocity of sound is the same. So if the wavelength is very wide, the frequency gotta be low.
That's not possible because wavelength and frequency (cycles per second) are inversely related. So if we have a very wide wavelength we'll get a very low frequency.
Actually, if you change the medium from air to diamond, sound will travel 35 times faster. Then the wavelength for any given pitch will be 35 times longer than that pitch would if traveling through air. But a 35-fold increase in wavelength would likely be the maximum since there is no substance which transmit sound faster than diamond (which I'm aware of).
As I understand it,@@bobbritt5904, if you lowered the temperature of that diamond you'd be able to get an even longer wavelength for that same pitch/frequency
@@MikeGFParsonsvery interesting to ponder 💭
So basically the ultimate solution would be concrete barriers, followed by dense foliage behind it! Simple
Thank you, excellent explanation
this is a bit heavy, u can usually chill out to these vids, this is like you are at school. Thanks anyway, i do like the channel in general. :)
this is called LEARN !
Thought I was tripping
7:30 pretty sure that's wrong. A piano covers 27,5 to 4186 Hz
I think the character is supposed to be an eardrum with really big ears and covered in delicate inner-ear hairs
niice
5.54
That was an f on the piano
Pretty darn good. But what's with the smiley faced dumbo ?
9:12 xDD