Wonderful explanation! This really helped me understand the Dripping Faucet phenomena! Chaos is just wonderful and beautiful in so many ways, and this experiment is one of the pieces that proves that. Thank you so much for this video!
Hi Sahil- If you mean a real-life faucet, some kind of videography/image processing should work. I know that has been done. You're asking to go beyond the super-simple models of nonlinear dynamics into some more advanced fluid mechanics level models. Some good refs for that are
17:33 unless the punch not being perpendicular is important to the explination. Which I feel like its not because the leaking faucet does have this sort of issue with a different angle punch it more so has to do with it still returning to the same state not that the faucet is "pushing" at a different angle. I feel a better way to explain it would have been a surface on a spring that is always punched in the same direction if you punch and let it return and then punch and let it return the system oscillates steadily. But if you punch it while it is on its way back, you create weird oscillation. no difference in angle of punches.
Wonderful explanation! This really helped me understand the Dripping Faucet phenomena! Chaos is just wonderful and beautiful in so many ways, and this experiment is one of the pieces that proves that. Thank you so much for this video!
Nice video! We’ll explained. How can we calculate relative volume/ drop sizes in a leaky faucet? Can you please point me to any research?
Hi Sahil- If you mean a real-life faucet, some kind of videography/image processing should work. I know that has been done. You're asking to go beyond the super-simple models of nonlinear dynamics into some more advanced fluid mechanics level models. Some good refs for that are
17:33 unless the punch not being perpendicular is important to the explination. Which I feel like its not because the leaking faucet does have this sort of issue with a different angle punch it more so has to do with it still returning to the same state not that the faucet is "pushing" at a different angle. I feel a better way to explain it would have been a surface on a spring that is always punched in the same direction if you punch and let it return and then punch and let it return the system oscillates steadily. But if you punch it while it is on its way back, you create weird oscillation. no difference in angle of punches.
amazing explanation, hope you provide more videos!
Thank you, I will
Thankyou
First time on this channel and I love that transparent board thing. Although the squeaks make me cringe.
Are you writing backwards?
no, it was flipped in post-production
Bro I’m on mushrooms how did I get here? I’m taking this as a sign