From what I see, the damping ratio directly correlates to the speed/response time at which the system hits the desired value. Are there other ways to decrease the rise-time? Very nicely explained tho!
Thanks! I think if you look at what makes up the damping ratio, you can see exactly what variables can effect the speed/response time. Just find out what makes up the damping ratio in your system and then you can see what to tweak it!
@@CircuitBread You could say that for an equivalent, it just made my teeth feel funny especially the incisors. I hope it doesn't sound petty to complain about that.
Dealing with Second Order Systems is FUN!
Nice Video
Really good explanation!
a little bit of correction: the greek letter you used in the beginning is "xi" (ξ) , while "zeta" has a simpler curved shape (ζ)
keep up the good work
Thank you! Admittedly, with my handwriting, those two will likely look the exact same.
From what I see, the damping ratio directly correlates to the speed/response time at which the system hits the desired value. Are there other ways to decrease the rise-time? Very nicely explained tho!
Thanks! I think if you look at what makes up the damping ratio, you can see exactly what variables can effect the speed/response time. Just find out what makes up the damping ratio in your system and then you can see what to tweak it!
8:02 that was a perfect "boop" it actually sounded digital 🤣
😂 I had to watch it a couple times, that is too funny! I had not heard it like that when reviewing it.
I am very sorry but the sound the marker makes when it gets into contact with the paper is very very discomforting and distracting.
Modern day equivalent of fingernails on a chalkboard? Interesting... maybe it's because the marker was getting too dry.
@@CircuitBread You could say that for an equivalent, it just made my teeth feel funny especially the incisors. I hope it doesn't sound petty to complain about that.
@@ngonidzashemwanjira208 add lofi in the background
@@CircuitBread e÷@@ß