I wish you were my professor for this class, actually enjoyable. My professor is death by powerpoint and theory. 0 real practice problems in class. Its awful.
You deserve a bit more love for this video. I think it's pretty great! This topic is irritating and you did a good job explaining it. Conceptually I'm still a little hung up on the direction of the derivative of the tangential vector but hoping it comes to me with a bit more time.
Sir, at 11:24 you said d[u(et)] is perpendicular to u(et), and d[u(et)]/d[t] = (v/rho)*u(en), but then at 12:20 you plug in (v/rho)*u(et), instead of (v/rho)*u(en). what am i missing?
I wish you were my professor for this class, actually enjoyable. My professor is death by powerpoint and theory. 0 real practice problems in class. Its awful.
you're the best engineer teacher anyone could possibly ask for!!! thank you for these videos, they deserve so much more attention! :D ♥
You deserve a bit more love for this video. I think it's pretty great! This topic is irritating and you did a good job explaining it. Conceptually I'm still a little hung up on the direction of the derivative of the tangential vector but hoping it comes to me with a bit more time.
man i wish i started to watch your videos earlier sir
too good and simple explination
It's really helpful, thank you so much sir
Sir, at 11:24 you said d[u(et)] is perpendicular to u(et), and d[u(et)]/d[t] = (v/rho)*u(en), but then at 12:20 you plug in (v/rho)*u(et), instead of (v/rho)*u(en). what am i missing?