I really like your videos on this subject as they are short and to the point which makes them very effective and not boring. Thanks a lot for making this series.
You are very good teacher..Sir I have request please don't mind it.. Their are so many playlists of higher level mathematics and higher level physics...which are incomplete.... So when we see incomplete playlist.. it hurts so much because your lectures are very help and due to incompletion we can't enjoy it fully.. So please as time permits you must complete it soon.. Thank you..
Thank you for your comment. Yes, we plan on completing them but it takes a lot of time and we do have our regular jobs. We'll chip away at them. My wife and I spend almost 4000 hours per year working on these and I work 3 other jobs, while my wife takes care of the family.
@@MichelvanBiezen Sirrrr!!!!! Huge Respect to you. You are the sole reason for me to not give up after 2 semesters. When I will find a job after graduating I will donate to you. Love From Pakistan. Keep up the good work.
Since the voltage v is given as a function of time v(t), we can assume that it is not "DC". And if we need to find the impedance with a capacitor and inductor in the circuit, it would have to be alternating voltage.
You were the light into the darkness of circuit theory that I have this semester.
I wish the same happen to you this year
Thank you. Glad you found our videos and you found them helpful. 🙂
I really like your videos on this subject as they are short and to the point which makes them very effective and not boring. Thanks a lot for making this series.
Such an insightful lecture also the bow is just on fleek.
Thank you.
Thank you so much! Had the exact same question in my book and it had a different answer, which confused me a lot
You are very good teacher..Sir I have request please don't mind it.. Their are so many playlists of higher level mathematics and higher level physics...which are incomplete.... So when we see incomplete playlist.. it hurts so much because your lectures are very help and due to incompletion we can't enjoy it fully.. So please as time permits you must complete it soon.. Thank you..
Thank you for your comment. Yes, we plan on completing them but it takes a lot of time and we do have our regular jobs. We'll chip away at them. My wife and I spend almost 4000 hours per year working on these and I work 3 other jobs, while my wife takes care of the family.
@@MichelvanBiezen Sirrrr!!!!! Huge Respect to you. You are the sole reason for me to not give up after 2 semesters. When I will find a job after graduating I will donate to you.
Love From Pakistan.
Keep up the good work.
Thank you sir. ..one doubt sir, zeros are (s+2) & (s+3) therefore zeros at -2 & -3 sir but you wrote +2 & +3 sir ?
Look at the next video. He also mentions this in the two previous videos.
I really like the lecture
Thank you.
Sir why did we calculate zeroes and poles
May Allah bless you sir. Allahumma Ameen
Thank you. 🙂
Why is the transfer function V(w)/I(w) and not Vout/Vin? (:
There are 4 types of transfer functions. V/I is one of the four. V/V and I/I are more common. See the earlier videos in the playlist.
Fantastic information. Thank very very much.
You are welcome. Glad you liked it. 🙂
Thank you for your helping
Excellent stuff.
Thanks, it is really helpful.
Glad it was helpful! 🙂
Thank you very much!!
prof. Biezen, when you multiplied the top and the bottom by j0.05w shouldn't we multiply (6+j2w) by the same number (j0.05 w) too? thanks
3 (AB) = 3 AB not 3 A 3 B = 9 AB
@@MichelvanBiezen I was confused because you multiplied j0.05 by (10 and 1/jw0.05) so I thought we should multiply j0.05 by the second oprend.
Goat
Thank you. Glad you like our videdos. 🙂
Is the voltage in DC? I’m a little confused
Since the voltage v is given as a function of time v(t), we can assume that it is not "DC". And if we need to find the impedance with a capacitor and inductor in the circuit, it would have to be alternating voltage.
@@MichelvanBiezen how would I be able to find the transfer function in a differential equation form ?
I really like the lecture
Thank you. Glad you liked it.