thanks a lot, my question was when to calculate Rth which you explained in the best possible way at 14:39 . I do love the way you teach( the process of teaching, what I mean is that you explain when and how each parameter should be calculated, and it really helps me understand better) Sorry if my English isn't good enough😊
The resistors are actually not in parallel, resistors in parallel share a single node pair, that means connected on top and bottom. Resistors in series are when exactly two meet at a node so that they have the same current. Resistors in parallel have the same voltage. The 10 ohm and 5 ohm resistors are in series.
I'm very grateful...
I came at across this @ the right moment... (Alhamdulillah)
You explain 100 times better than my professor thank you
thanks a lot, my question was when to calculate Rth which you explained in the best possible way at
14:39 .
I do love the way you teach( the process of teaching, what I mean is that you explain when and how each parameter should be calculated, and it really helps me understand better)
Sorry if my English isn't good enough😊
Well explained miss Hulman
Thank you so much
you are the best
much appreciated
Thank you so much!
thanks
check your current divider equation at t is infinity for 5 ohm resistor.. (3) x (10/ 5+10)
thank you miss Hulman!!!
Nice mam
In the case of thevenin resistance, how are 5ohm and 10ohm in series?
When exactly 2 elements meet at a node they are in series and they also share the same current.
At 15:10 why did the resistors being computed in series even though its in parallel
The resistors are actually not in parallel, resistors in parallel share a single node pair, that means connected on top and bottom. Resistors in series are when exactly two meet at a node so that they have the same current. Resistors in parallel have the same voltage. The 10 ohm and 5 ohm resistors are in series.
@14:32 why are the resistors shorted?
It is not shorted, current just follows the path of least resistance so it is ignored.
at 3:58, how can you integrate from 0 to t if t is the variable for integration?
This about it as a variable of integration, we could use tau in integral and t in limits of integration
4.45 - You don't raise both sides "to the e"; you do the opposite
Actually I did, e^ln is the value of the part in the parentheses. 👍🏾
hi you have mistake in the calculation of V(infinity) of capacitor = -5v, please check again
No, actually she got it right. It is equal to -5V.