The elements of Ybus used in this problem have been calculated in the following video lecture (starting at time 2:25): th-cam.com/video/t9tf-pgac_g/w-d-xo.html
beautifully explained Masha ALLAH i must say its indeed true good work u r doing. sir here u calculated the inverse and u just wrote transpose which is adjoint instead.
Excellent lectures sir Ur teaching methodology and concepts were excellent Just a request sir if u kindly teach us Induction machine and synchronous too then it would be very much useful for us..
This has already been explained in the theoretical part lectures. To understand this, you may watch the following video lectures: Newton-Raphson Method of Load Flow: th-cam.com/play/PLEVP-S4VFKO9HEb7Mozh_sEQzekft-DLn.html
The elements of Ybus used in this problem have been calculated in the following video lecture (starting at time 2:25):
th-cam.com/video/t9tf-pgac_g/w-d-xo.html
Download hand-written lecture notes (pdf) using the following link:
drive.google.com/file/d/10_A3zXCcfjhpf32bLFA2vzmXjzmhV9Xf/view?usp=sharing
Just simply great..knew how to do FDLF before watching this video..but sir hats off to your teaching style..!!
Thank you Harikrishan S.
Download hand-written lecture notes (pdf) using the following link:
drive.google.com/file/d/10_A3zXCcfjhpf32bLFA2vzmXjzmhV9Xf/view?usp=sharing
Thank you very much sir.
Even m.tech students are benefited by your video sir.
Really great explanation.
Lots of respect for you.
Download hand-written lecture notes (pdf) using the following link:
drive.google.com/file/d/10_A3zXCcfjhpf32bLFA2vzmXjzmhV9Xf/view?usp=sharing
@@DrAfrozAlam thank you very much sir.
beautifully explained Masha ALLAH i must say its indeed true good work u r doing.
sir here u calculated the inverse and u just wrote transpose which is adjoint instead.
Thanks for the compliment. You may observe that I wrote transpose of the cofactor of the matrix which is nothing but the adjoint of the matrix.
@@DrAfrozAlam got it thanks
Download hand-written lecture notes (pdf) using the following link:
drive.google.com/file/d/10_A3zXCcfjhpf32bLFA2vzmXjzmhV9Xf/view?usp=sharing
Great handwriting and explanation
You are great sir
Thank You, Sir. Appreciated
God bless you Sir
Thanks sir , great explanation...
Most welcome
Excellent lectures sir
Ur teaching methodology and concepts were excellent
Just a request sir if u kindly teach us Induction machine and synchronous too then it would be very much useful for us..
Synchronous Machines: th-cam.com/play/PLEVP-S4VFKO96Bao3uSYtCRw5wbJPbtYu.html
Download hand-written lecture notes (pdf) using the following link:
drive.google.com/file/d/10_A3zXCcfjhpf32bLFA2vzmXjzmhV9Xf/view?usp=sharing
thanks sir for this explanation
Most welcome
Nice sir
Thanks you vary much
You are welcome
Great sir
Thank you
How to solve if pv bus has active and reactive load also?
Well said sir. I've a doubt
What If 2nd bus is PV bus and 3rd bus as PQ bus
This has already been explained in the theoretical part lectures. To understand this, you may watch the following video lectures:
Newton-Raphson Method of Load Flow: th-cam.com/play/PLEVP-S4VFKO9HEb7Mozh_sEQzekft-DLn.html
Sir, can you share the link of the video regarding the introduction of FDLF method?
th-cam.com/video/dELqfB8_K_k/w-d-xo.html
@@DrAfrozAlam Thank you Sir!!
It's my pleasure
Sir I need PDF of problems based on gauss seidal, n-r , decoupled , fast decoupled methods
Download hand-written lecture notes (pdf) using the following link:
drive.google.com/file/d/10_A3zXCcfjhpf32bLFA2vzmXjzmhV9Xf/view?usp=sharing
Sir i need explanation for the system with 1 slack bus and 2 load buses
For detailed explanation, please watch the following:
Decoupled/Fast Decoupled Load Flow Method: th-cam.com/play/PLEVP-S4VFKO_QznuoooIl0o4vQeCV3NHe.html
what is the book you use?
Hadi Saadat
@@DrAfrozAlam Thank you, Sir
Allahu Akbar 💣🧨🎇