Your lectures are easy to listen. You are amazing. At the time when I was studing I didn't have any teachers like you (with energy, who knows the subjectwell, and who prepare well for their lectures). My teachers were mostly old crooks who thought too much about themselfs, and they were giving the same outdated stuff for many years. Thank's a lot that you published these videos. It's probably one of the best contents in electromagnetics I've ever seen. Wish You all the best.
In a rc circuit or simple resistance circuit when we closed key ( time t=0 ) we observes that initial current is V/R. But in RI (resistance-inductance) circuit when we switch on of circuit we see that there is zero current initially in wire. Why? If possible make a short solution video to answer my question with detailed analysis.
As a mathematician, I may disagree with this approach through the solution of the DE. This is inhomogenious ODE of the first order, and I think that every physicist should know how to derive the solution. So every physicist should take at least two courses in differential equations - the ODE and the basic PDE of the so called mathematical physics. The altitude of "I see the differential equation and I know the answer" is a very problematic
Your lectures are easy to listen. You are amazing. At the time when I was studing I didn't have any teachers like you (with energy, who knows the subjectwell, and who prepare well for their lectures). My teachers were mostly old crooks who thought too much about themselfs, and they were giving the same outdated stuff for many years. Thank's a lot that you published these videos. It's probably one of the best contents in electromagnetics I've ever seen. Wish You all the best.
Lecture starts at 3:04
In a rc circuit or simple resistance circuit when we closed key ( time t=0 ) we observes that initial current is V/R. But in RI (resistance-inductance) circuit when we switch on of circuit we see that there is zero current initially in wire. Why?
If possible make a short solution video to answer my question with detailed analysis.
Great lectures what is the book you are referencing?
Thank you! We use Matter & Interactions, Vol. 2, by Chabay and Sherwood.
As a mathematician, I may disagree with this approach through the solution of the DE. This is inhomogenious ODE of the first order, and I think that every physicist should know how to derive the solution. So every physicist should take at least two courses in differential equations - the ODE and the basic PDE of the so called mathematical physics. The altitude of "I see the differential equation and I know the answer" is a very problematic