@trentswag9324
HIGH SPEED FOOTAGE NEEDED
@caseysaunders2168
me when i'm unzipping the biggest coat i own
@dj_duplicity
This made me so happy for no reason at all.
@mardrix
The Atomic Trampoline sounds like an early 2000s wrestling move
@theCodyReeder
I'm sure it's not lost on you that this is what happens to the particles in a gas when you compress it.
@f0x1ro1
The sound, the bounciness... I think... I think this unlocked some neural pathway in my brain. That felt so good...
@RYINWOLFE
"If you want to find the secrets of the universe, think in terms of energy, frequency and vibration."
@tripdrakony869
get in contact with the slowmoguys, this has to be one hell of a interesting highspeed footage
@nickark4807
"At least based on what i could count" , "several thousand times per second" You WHAT??
@Zqily
plot twist: it never stopped bouncing, the pitch just goesmso high the human ear can't hear it anymore
@rosstreusdell4626
I need that sound played on repeat. It would be so relaxing.
@RevAdamHarris
This is the true version of analog audio oscillation. I've only ever heard the digital wave form while switching frequency on my ham. This is amazing!!
@thesuperfryingpan8164
I analysed the audio of the ball bouncing and found out that the frequency of the audio just at the end of the bounce is around 12kHz, which means that it was bouncing almost 12000 times a second! Edit: Some people have interesting theories and suggestions, since this turned our to be a good debate, i just want to clear out some info: 1- the mic i used was a regular mobile phone mic nothing special, such mics can detect up to 16kHz if I'm not wrong. 2- 12kHz means there are 12000 individual beats in a second, which means the ball was hitting each surface 6000 times a second. 3- I tried to simplify this to be just for fun, i know i am probably wrong to some extent, if we want this to be a research it would need much more advanced equipment than i have and more specialised people than me. 4- Maybe if TheSlowMoGuys could capture some closeup very high speed footage we would be able to count the number of bounces more accurately, it would also be more fun.
@ClementSanMartin
As a sound engineer, I have directly analyzed the audio of this video (not with a mic) and my sonogram indicates a maximum frequency of ~15kHz. That's 15,000 bounces/second, or 7,500 per surface. Beyond that, the sound stops because the quality of the compressed audio prevents us from hearing what's going on higher up. This means it goes even higher !
@LifeEnergi
This is absolutely amazing. High-speed footage is definitely needed.
@Patrick-zr8tv
My voice right at the end of delivering a clear and logical argument that would otherwise have convinced the opposition of my point:
@kill3rbamb146
Literally every single hinge in the house when the parents are asleep.
@SteveMould
This is so cool! I really want 2 now
@OscarBrown-i5v
Pov: your bedroom door at night when u open it to get a drink
@GS_GD