Відео

Thanks

Nice presentation, thanks.

13:22 The chart was hard for me to understand and I felt some context was missing. I think the x axis ("time") doesn't really matter here, what matters is the relationship between the concentration of potassium ions and the resting membrane potential which should follow Nernst's equation (assuming that the resting membrane is most permeable to K+, which - as it turns out - it is). Basically, researchers changed the external concentration of potassium ions and measured the resting membrane potential for different K+ ion concentrations. By the way, note the K+ concentration at which the resting membrane potential becomes 0. Also note that - although I don't think this is mentioned in the video - the chart is for the giant squid neuron. You can compare this observation to the earlier chart from 8:35. Great lecture otherwise!!

Great 👍

Sheldon cooper

great lectures

Dhonyabad Prof. Supriyo. you just helped me in my PhD thesis.

i am trying to plot result and call the regression function but it shows "TypeError: float() argument must be a string or a real number, not 'dict'", how to fix this error

Trying an audit of this system with python: ua-cam.com/video/_x1DQlN-IZ8/v-deo.html

Thanks a lot

You are great sir. Thank you so much.

I love you.

It's an interesting topic of how electron tunneling affects semiconductor design and performance.

Very detailed and clear explanation! very helpful!

Can u provide notes on biological oscillator

The contents of the lessons are quite close to the book "Electronic Transport in Mesoscopic Systems". BYW, he's so confident and fascinating.

Thank you very much for providing such a wonderful course and presenting all the challenging topics in such a clear and understandable manner.

Would you please show final equation ? With two variables.

That band structure conclusion with barriers increment was piece of an art. It was so informative. Very many thanks.

13:50 slight typo: Tau should be subscript n for this problem

5:07 *majority carriers are unperturbed by excess carriers

i really need to watch it again

Very helpful video. Thank you so much

I was studying about atr-seiras and it was very helpful. - Graduate student in South Korea

thanks a lot!

te-ka + te-ki = puzzle

bronze = gang-sa

It seems like larger the difference between u1 and u2 the more current is produced, is that correct? Are the differences in u1 and u2 caused by the type of materials used?

Sorry if this is a basic question, but at 7:30 you talk about electrons going in and electrons going out. Is that because n-type materials have extra electrons and p-type materials have electrons holes? If so, is that center rectangle essentially made up of a series of n-type & p-type materials?

Complete !

The best tutor. Great thanks!

2:24

Sir plzz share the notes of this lecture

Thank you so much for this amazing lecture

Thanks to provide amazing lecturer 💙love from India 🇮🇳

Thank you so much, dear Guru Ji. great lecture, nice explanation, and supreme quality content coverage of basics. thanks a lot.

11 years old but still great. this channel is a goldmine.

Good work Prof👌👌.

Is it possible to grow cells on the smallest surface ( the bottom with volume inscription) ? Or there is not cover layer on it ?

thanks for clear and useful videos

Hi Benjamin, Thank you so much for the tutorial. This is really helpful. However, I encountered an issue when attempting to implement the code. I received the following error message: TypeError: agg function failed [how->mean, dtype->object] while running this code: mastml_df_clean = mastml_df_filtered.groupby("chemicalFormula Clean", as_index=False).mean() Could you please provide some advice on this matter? Thank you.

Wow keep posting such greater videos

sir energy state of s sheets is called?

How to deploy trained model

❤awesome

Thank you so much for such a very eloquent lecture. I have been searching the internet for a better lecture video on the basics of semiconductors and here I found the best! 🙏🙏🙏

I love that you continue to reiterate and reincorporate the information until the vocabulary becomes synthesized, so that I can continue to build upon the story in my mind; thank you for your dedication to education on this material that requires focus to understand correctly.

btw.... the correct name of the periodic table is Mendeleev's Table, named after the Russian chemist who invented the table.

Awesome course. Thanks.

Controlling the body