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> >I just dont understand why bowls should not vibrate them?
>
>Yes, the tones are too low for the bowl to physically produce them. If
>you
>think about it, bass notes are pretty darn large airwaves and therefore
>require pretty darn large instruments to produce them. At 20Hz, the
>wavelength is 56 feet long. There's just no way a bowl 20" wide weighing
>eight pounds can move that much air with enough energy to produce the
>tone.
>Imagine how much more difficult it is to move 56 feet of air than, say, a
>mere 2.47 feet for a 440Hz A note.
Usually an instrument has a lowest resonance that depends mainly on
its total size and below that it does not vibrate.
So the question is: why would the bowl produce harmonics of a
frequency that it does not generate? (its possible, I really
wonder...)
Also: your wavelength calculation holds for air, so it calculates
flutes (being that their lenght is 1/4 of the wavelenght if I
remember right)
For a solid material, there are other laws. Just imagine a short
clock pendulum waving at 1Hz...
> > What did the old cat hear?
>
>Probably the very low and the very high frequencies - he certainly does
>not respond to normal hand claps and name calling! ("Get off the table,
>Chili, off, off!!" - nope, just doesn't work! :-)
>
probably the low frequencies, otherwhise it would react to your bsssbsss...
And the lows, it can feel in the body somewhere.
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