Middle C on the piano sounds like red (the beginning of the visible rainbow spectrum). The world's great love songs are in C-major. 32,768 hertz, when continually halved, reduces to an lower octave of 256hz: Middle C. Therefore the piezoelectric crystal resonates in red. An extremely high C-note. Music is frequency in time. This would explain why time--at least on the grand piano--begins where the rainbow commences. At least that's what Glenda the Good Witch told Dorthy after cracking a cigarette.
Probably it is also because of history, availability and economy of scale. Even if today we would find a 65536Hz crystal to be more power efficient or to be slightly smaller or slightly more precise, we would probably still stick to 32768.
Middle C on the piano sounds like red (the beginning of the visible rainbow spectrum). 32,768 hertz, when continually halved, reduces to an lower octave of 256hz: Middle-C. Therefore the piezoelectric crystal resonates in red. An extremely high C-note. Music is frequency in time. This would explain why time--at least on the grand piano--begins where the rainbow commences.
What I want to know is why there are so many videos that explain what one is and why to use one. No one can show a simple example of using one. Hell, I can't even find a video that mentions what the two pins are. ground and vcc?
ground - electrical ground, vcc - voltage source, sda - serial data, scl - serial clock - you want to just look at circuit diagrams because its basically how you would wire a lightbulb (twice)
Nice explanation.
If this component is damaged what will happen?
Middle C on the piano sounds like red (the beginning of the visible rainbow spectrum). The world's great love songs are in C-major. 32,768 hertz, when continually halved, reduces to an lower octave of 256hz: Middle C. Therefore the piezoelectric crystal resonates in red. An extremely high C-note. Music is frequency in time. This would explain why time--at least on the grand piano--begins where the rainbow commences. At least that's what Glenda the Good Witch told Dorthy after cracking a cigarette.
Does it work for gameboy cartridges?
Hi everyone i want to sée d iagram of thé 555 and quartz thks
32.768Khz is for Computer Motherboard ???
It is helpful and good information.
Probably it is also because of history, availability and economy of scale. Even if today we would find a 65536Hz crystal to be more power efficient or to be slightly smaller or slightly more precise, we would probably still stick to 32768.
Middle C on the piano sounds like red (the beginning of the visible rainbow spectrum). 32,768 hertz, when continually halved, reduces to an lower octave of 256hz: Middle-C. Therefore the piezoelectric crystal resonates in red. An extremely high C-note. Music is frequency in time. This would explain why time--at least on the grand piano--begins where the rainbow commences.
How Can I Lower The Frequency From 32768 kHz to 24500 kHz?
I Wanna Create And Measure Martian Time Which Is
24 Hours 39 Minutes
Thanks
Its recording seconds, not hours or minutes, so you would just measure the number of seconds in a martian day
How it is reduced to 1 clock pulse? Please make a video on it.
flipflops specifically toggle flipflops made out of data flipflops probably even though jk flipflops would work too
@@duality4y so whether every quartz watch have flipflop inside?
@@nishanthsinceborn 15-bit counter
@@Sentinel-1 thank u dud💓
Very helpful
Thank You
If my frequency is 32.770 means what happen
1.25x playback speed for normal speed.
3.27680 and 32.7680 are same
What I want to know is why there are so many videos that explain what one is and why to use one. No one can show a simple example of using one. Hell, I can't even find a video that mentions what the two pins are. ground and vcc?
ground - electrical ground, vcc - voltage source, sda - serial data, scl - serial clock - you want to just look at circuit diagrams because its basically how you would wire a lightbulb (twice)
All that screen and such tiny little characters