Would you mind explaining this further? Since sound is literally pressure waves, I don't understand how reducing sound can still leave "sound pressure".
ANC works by detecting the outside noise, deriving how these noises reach you ear and then play the antiwave so that in cancels out. The issue is that the canceling out part only works on the receiving end so there is still pressure on the eardrum even if you don't hear it.
I still think that ANC is good for the ears by reducing the needed volume in every day situations. And it also helps that most ANC headphones are designed in a way that also passively isolates the outside world to reduce the burden on the ANC and as a side effect also on your ears.
> pressure on the eardrum even if you don't hear it
Hearing is literally "pressure [changes] on the eardrum". Unless it's outside the frequency range of our hearing, if there's waves hitting your eardrum, you hear them.
So either you're not expressing yourself clearly enough our you've seriously misunderstood how sound works.
But why would there be elevated pressure? Headphones can't pump air into your ear, they can only make it wiggle back and forth. ANC headphones use the same speaker that normally plays your music and just mix the noise-cancelling sound into your music, nothing else. When you aren't playing any music, outside noise makes the air wiggle back and forth and the membrane of the speaker makes the air wiggle back and forth in the opposite phase. These movements destructively interfere, resulting in the air staying still.
BTW where in the video do they mention elevated pressure?
I still think that ANC is good for the ears by reducing the needed volume in every day situations. And it also helps that most ANC headphones are designed in a way that also passively isolates the outside world to reduce the burden on the ANC and as a side effect also on your ears.