Left__blank t1_j2dosk9 wrote on December 31, 2022 at 2:17 PM

With the speed of sound traveling so fast, how can it reach the headphone, and the headphone have time to analyze and produce a “matching opposite” so quickly?

pytness t1_j2f6ckg wrote on December 31, 2022 at 8:36 PM

There is no need to analyze it.

Sound is a wave like this: ---^v---

Notice it goes normal, up, down, normal.

If the microphone gets up, it produces a down and the other way around like this: ---v^---

So if you sum the waves (what u hear) you get --------

Left__blank t1_j2f7tj6 wrote on December 31, 2022 at 8:47 PM

But it does. You say so yourself: “if the microphone gets up”. Means it picks up the signal and a computer/components must produce an equal and opposite signal to match it and send to your ear simultaneously as that same sound carries into your ear canal. It’s fascinating

pytness t1_j2f90wd wrote on December 31, 2022 at 8:56 PM

I mean, yeah, but its just -signal

Most speakers go up to 20K hertz, which mean it vibrates up to 20000 a second, if you do the math 1 second / 20000 hertz * 340 (sound speed in meters per sec) = 1.7 mm

Which per each oscilation, sound travels less than 2 mm.