I assume that you are referring to AC circuits, not DC. In that case, you can still follow the exact same steps, except that you will be dealing with impedances for the resistors, capacitors and inductors. Impedances are complex numbers, so the arithmetic will be a lot more involved. You will still end up with a Thevenin voltage and Thevenin impedance except that those values will have a magnitude and phase angles. I do intend to get to AC circuits, but there is a lot of DC circuit stuff to get through first.
best teacher everrrrrrrrrrrrrrr
:)
What to do if the circuit has inductors and capacitors?
I assume that you are referring to AC circuits, not DC. In that case, you can still follow the exact same steps, except that you will be dealing with impedances for the resistors, capacitors and inductors. Impedances are complex numbers, so the arithmetic will be a lot more involved. You will still end up with a Thevenin voltage and Thevenin impedance except that those values will have a magnitude and phase angles. I do intend to get to AC circuits, but there is a lot of DC circuit stuff to get through first.
why u gotta be making these videos 2 years after I need them for class? 😅
Your microphone is super low, i'm on the subway and no way i can hear.
the sound is just fine. blame the subway or your phone, not him