Відео

Thank you for making video lectures ❤

Best explanation for TIR

🙏🙏🙏

You have presented this content better than any of the professors at Cal Poly, thank you very much

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Aap logo ko ish wale topic m hindi nahi aata kya bolne

Thank you nfor simplified explanatikn.

came here after ted ed's lidar video

yup corrected by sir as well

at 22:33 in the topmost eqn. y=y2 so y1 must be replaced by y2

I am very grateful for knowledge

This is saving me for my ECE391 midterm tomorrow. Thanks!

Thank you very much . This lecture is very clear.

thanks you saar

Fantastic. Nailed a tricky topic with this one.

thank you very much

Good

This is a great lecture with detailed examples. Really enjoyed it.

Finally got this topic. I am really satisfied here, My professor has started this topic but he didn't explained these things, this lecture has provided the great information regarding why should we learn transmission line theory.🙏🏻☺️☺️

Thank you, very clear. You are a great teacher.

Another great lecture by Prof Pradeep Kumar. Thank you, sir!

waste of my time

Simply excellent lecture! Does not get better that this. Thank you sir!!

25:55 should be 0.1λ not 0.05λ?

well done ty

Thank you more than very much

Thank you! I was struggling with the transmission line coefficient. This cleared it up nicely.

You gave a beautiful insight/intuition about the subject, thanks a lot, sir.

clarity in teaching is amazing........................

wonderful all doubts cleared , thank you sir

Excellent teaching ..........Role model for me

Ahhhhhhhhhhhhhhh..... As a circuit Designer.... I like this video. Thank you sir.

How can electrical length taken in degrees

It's very very good

Thanks

Thank you

Discuss low loss radio frequency and UHF transmission lines. Also deduce resistance and reactance of the terminating impedance of a UHF transmission line.

Wonderful. Thanks to nptel program.

Excellent sir

Sir if there is skin depth concept , that electic field reduces by a factor,inside a conductor..then why also do we say that electric field is zero inside a conductor...Do the answer is that former is electrodynamics and latter is electrostatics.

@19:42 there is a mistake in the lecture. Since freq. f is constant, as phase velocity increases the wavelength should increase. f = Up/(wavelength). If Up increases and wavelength decreases then frequency f will increase which is not correct.

Awesome Lecture series with a good explanation of fundamental concepts in a very intuitive way. Less mathematical derivation and a more intuitive approach helps beginners like me to understand the concepts easily.

Great lecture! One question though: at 17:15 did you forget to divide I by L or did I miss something?

Good explanation

4:33 those names always confuse me...now its clear.

Extremely helpful you really get the basic of ferrites in under 30 minutes , thanks a lot!

Prof. Roy, you explained it so well and systematically that even though I did not need to watch this, I watched the complete video. Keep up the good work!

Very good concept sir...Thank you

You are required to match a load with an impedance of ZL = 70 - j80ꭥ at a centre frequency of 450 MHz to a 50ꭥ transmission line with phase velocity v =2.1 x 10^8, connected to a generator with a 50 ꭥ internal impedance. The choice you have is to use either single or double stub matching. Determine the matching technique which gives the greatest VSWR <2 bandwidth and provide quantitative information to support your answer. sir, please solve this problem

Thank u🙂