My whole class 12th 2 years of engineering passed but i couldn't understand the intuitin as how cos equation comes out to be travelling wave. I am indebted to you sir. Although i couldn't study in IIT but ended up being in a nasty NIT , NPTEL has brought me to lectures of professors like you. THANK YOU MHRD AND ALSO GREAT RESPECT TO YOU SIR.
Many thanks Sir. An excellent course and extraordinary teacher. I sincerely recommend these educational movies for anyone interested in transmission lines, antennas, R.F. circuitry, communications and related math. Greetings from Finland and all the best!
Excellent lecture from an excellent teacher. I haven't got such a clear explanation from any teacher of transmission lines. Thanks a lot, Sir. These are very helpful resources for every GATE aspirant.
Now i know why IITB is class apart from other institutes. This teacher is matchless, no teacher in all other IITs are upto his level in EM Theory and radiation topics
Brilliant...I actually never understood why kirchoff was not applicable where TL theory is...at 12:00 he explains it really well! Amazing...years of misunderstanding cleared! Thank you!
most people doig this neglect the fact that there are V(z) on left member of the equation and V(z+\Delta z) on the right member of the equation. How did you get rid of that. By assuming they are equal?
Hello, I have a doubt can you please explain me ? At 23:13, sir told that electric field is in between two conductors, ie, perpendicular to them. But isnt the electric field along the conductors, as they only are moving the charges and causes current, isnt it ?
C2 For example a ruler cannot measure time and space, a tachometer cannot measure temperature. So please investigate this theory carefully and you will see that a FMMC meter measures conductance in both series and parallel and does not measure current at all. And conductance is L/A = velocity squared / power. Velocity squared times resistance gives power when R is defined as( v.max - vmin) /( vmax + v min) v=velocity. This critical because present flawed-theory hampers progress.
Hello, I have a doubt can you please explain me ? At 23:13, sir told that electric field is in between two conductors, ie, perpendicular to them. But isnt the electric field along the conductors, as they only are moving the charges and causes current, isnt it ?
Hello Sir, i need your urgent help. Can u solve a couple of questions of Transmission Lines, for me in which i am facing difficulty ? It would be of great help. Will really appreciate your support. Thanks and Regards, Arpit
My whole class 12th 2 years of engineering passed but i couldn't understand the intuitin as how cos equation comes out to be travelling wave. I am indebted to you sir. Although i couldn't study in IIT but ended up being in a nasty NIT , NPTEL has brought me to lectures of professors like you. THANK YOU MHRD AND ALSO GREAT RESPECT TO YOU SIR.
he's best prof online till now for trns lines ..
Many thanks Sir. An excellent course and extraordinary teacher. I sincerely recommend these educational movies for anyone interested in transmission lines, antennas, R.F. circuitry, communications and related math. Greetings from Finland and all the best!
Indeed
*Standing and applauding . Brilliant and very thorough.
Excellent lecture from an excellent teacher. I haven't got such a clear explanation from any teacher of transmission lines. Thanks a lot, Sir. These are very helpful resources for every GATE aspirant.
Thankyou Sir,
YOU ARE LEGEND ........ U made my basics clear . U r one of the best IIT professor in india who can teach EMV theory and TL .😍😍😍😍😍😍😍
Now i know why IITB is class apart from other institutes. This teacher is matchless, no teacher in all other IITs are upto his level in EM Theory and radiation topics
Brilliant...I actually never understood why kirchoff was not applicable where TL theory is...at 12:00 he explains it really well! Amazing...years of misunderstanding cleared! Thank you!
I want to read in IIT BOMBAY. ..............
today I learned why IITIANS are genius. ........bcoz they get teachers like u. ..........jai hind sir
Excellent explanation. Thanks prof, greetings from the Netherlands.
Sir, your tutoring is excellent. Thank you very much. BTW, I do not care about the video quality, the importance lies in the content.
sir i am speechlees because thanks is a small word for u and thanks to NPTEL
i want my teacher should watch thissss...
...
Thank you very much sir..by taking this lecture my concept improved a lot.
I wish if i had a such remarkable teacher as you. Thanks alot Professor
This is really perfect lecture. Thank you Prof. Shevgaonkar
Thanks a lot. Its makes me feel like missing my classes of telecommunincation
One of the best transmission line lecture. Thank you sir
Thank you for the wonderful explanation. I understood what exactly propagation constant is!!
The professor really knows his stuff........
Wow! what a great teacher! My teacher should take lessons from him
clarified lecture of this type will surely empower our concept......thank u,sir
right now i have his book in front of me.......what should i expect more....listening to him while studying from his book....
i have learned a lot.thank you so much.i want to be a professor like you.
A lot of thanx to Sir for this lecture
God bless you. You should open a donation page for when people start to work (or working) they can pay back.
Thank you sir. Your explanation is very clear.
That's the difference between the quality of iits and other colleges
god bless the speed selector button, nice video though,
Shrey Joshi lol !
1.5x for me...
sir, i liked the way u teach, it is really a good expeariance to have ur lecture. thanku u sir.......
most people doig this neglect the fact that there are V(z) on left member of the equation and V(z+\Delta z) on the right member of the equation. How did you get rid of that. By assuming they are equal?
Hello, I have a doubt can you please explain me ? At 23:13, sir told that electric field is in between two conductors, ie, perpendicular to them. But isnt the electric field along the conductors, as they only are moving the charges and causes current, isnt it ?
Thank you sir for your great generous effort, gain a lot. God bless you sir
beautiful handwriting
With V minus coefficient, one would get e power +(alpha)x term . Is this correct ??
guys, careful with using copyrighted music, youtube might erase the audio and it would be a real pitty. The video is amazing.
Excellent explanation.
what's the reason of taking conductance (shunt connection) into the account even after the capacitor is being considered?
this best lecture i have ever heard
Nice explanation 🙏🏻🙏🏻
a great respect to u sir ... thank u Soo much
welcome beta! apna number send karo
lol
God is me hmmkqfvw bhai qfduaynerdghwhhei q magdhehehxhwhwgfcksgbdf wgbdhwuns egdkpq
lbl
Awesome lecture...thank you Sir
sir plz...can u explain why the transmission line has 6 wire on both side... thank you.
You are the best
awesome video....really great
Where can we find entire lectures in PDF file
C2 For example a ruler cannot measure time and space, a tachometer cannot measure temperature. So please investigate this theory carefully and you will see that a FMMC meter measures conductance in both series and parallel and does not measure current at all. And conductance is L/A = velocity squared / power. Velocity squared times resistance gives power when R is defined as( v.max - vmin) /( vmax + v min) v=velocity. This critical because present flawed-theory hampers progress.
is this lecture series for microwave course???????
Excellent english, greetings
delta v and delta i is not very well explained. but the potential difference is a class explanation.
Great ❤
Nice lecture...
very well explained
Hello, I have a doubt can you please explain me ? At 23:13, sir told that electric field is in between two conductors, ie, perpendicular to them. But isnt the electric field along the conductors, as they only are moving the charges and causes current, isnt it ?
At 45.32 It should be e^(gamma*x) not e^(gamma*l)
thanks for informations prof.
because we need to introduce the time variation of the sinusoidal voltage
What if the transmission line catches fire?
your logic circuit will get damaged
So nice
Thanks for posting this!
concept understood!!!!
thanx sir
great sir .......
awesome sir
Video recording is not proper in between....please fix the problem
Thank you Sir !
I didn't got how ΔI and ΔV are obtained can any one please help me
These two equations are variations on Ohm's law, but this time for impedance!
equivalent of TL is wrong final equation somehow turned out to be correct ... refer william hayt book for correct derivation
Thank you very much...
Hello Sir, i need your urgent help. Can u solve a couple of questions of Transmission Lines, for me in which i am facing difficulty ? It would be of great help. Will really appreciate your support. Thanks and Regards, Arpit
Yes I can please go ahead
great sir
thank you soooooooooo much
Would be great help to me. tux Ani ikini
Transmission line "cell" circuit is wrong.
That's perfect thank you :)
awesome
i don't know how anyone can understand equations it turned from interesting to bull in a matter of minutes. Also real and imaginary parts ??
Thank u sir
yrr Hindi me transmission line bsc k liya video dalo yrr
Wow
he wrote x as l
thank you so much....
That's perfect thank you :)
Thank you Sir