Thanks for your explanations. This has helped me understand RLC circuits and steady sate/transients exponentially greater :)
That said, in this specific case, if you were the grader would you think I had an argument to make for the presence of our current in the voltage value of the capacitor?
That is the normal value of Vc, but the main point of this thread is to see if in this case, there exists such a relationship through the I = dQ/dt equation where Vc could actually be I/C
Also, DC doesn't necessarily mean constant voltage only. It could refer to constant voltage and/or constant...
Ok, that's helpful!
My next thought is that we can assume from the circuit diagram (and no V(t) function given for the Battery), that this is a DC circuit, and that means that the current is constant.
Would it be ok to assume from this that the voltage on the capacitor is then : V_c = I(t) / C ?
Homework Statement
Here is the problem in question. The only values given are those shown on the circuit labels. We are asked to form a voltage equation using Kirchoff's voltage law with specific loops. We were NOT asked to solve the equations for the currents.
Homework Equations
Sum of...