Phenomenal presentation skills, Andrey. I have a nerd crush now. Apart from the biochem itself, your "salesmanship" keeps my attention from wandering and stay focused on relatively abstract lectures. Bravo! For further effectiveness, consider pausing your monologue every so often to show an animation of the enzymatic reaction :-)
I am a deaf student studying BSc Biochemistry, could you please add subtitles to your videos allowing me to access the information :) thank you and keep up with your contents and works!
Hi, I need to correct you around 5 minutes. k≠1/k and [A]≠[B] at equilibrium. Rather the products are such that the rated=rater Or k[A]=(1/k)[B] at equilibrium.
Why is there a rate constant from A to B and B to A. I thought A and B are both substrates. Shouldn´t there be rate constants from the substrates (A and B) to the products (C and D)?
Hi :D thank for all you videos, you are amazing!!! I watched this video and I found this k very confusing...it is not the equilibrium costant, right? They have the same symbol >.
how come he has only 472k subscribers? His videos are way better than most text books if not all.
Phenomenal presentation skills, Andrey. I have a nerd crush now. Apart from the biochem itself, your "salesmanship" keeps my attention from wandering and stay focused on relatively abstract lectures. Bravo! For further effectiveness, consider pausing your monologue every so often to show an animation of the enzymatic reaction :-)
I bow to you , your such a excellent teacher 👍🏻👍🏻👍🏻👍🏻👍🏻👍🏻👍🏻
I am a deaf student studying BSc Biochemistry, could you please add subtitles to your videos allowing me to access the information :) thank you and keep up with your contents and works!
you're the best!!! THANK YOU
Hi, I need to correct you around 5 minutes.
k≠1/k and [A]≠[B] at equilibrium.
Rather the products are such that the rated=rater
Or k[A]=(1/k)[B] at equilibrium.
Why is there a rate constant from A to B and B to A. I thought A and B are both substrates. Shouldn´t there be rate constants from the substrates (A and B) to the products (C and D)?
Andreas Rutz rate constant is derived from k1 and k-1. If k-1 is bigger than k1, the reaction can’t go forward
Hi :D thank for all you videos, you are amazing!!! I watched this video and I found this k very confusing...it is not the equilibrium costant, right? They have the same symbol >.
In the second order reaction how the V gets tripled instead of four folds when we double both A & B ( products)??
can i marry you :)....you re amazing.
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SENİN BEN CANINI YERİM
Yo my man!! You are a life saver! You are the bestest! Thank you s much AK!🎉🫂🩷