The cyclic rule, or triple-product rule, relates a partial derivative to the other partial derivatives that can be obtained by rotating through the variables involved.
I finally found cyclic rule explanation... very nice and kind explan... I can't speak eng well but i want to say thank you this video saved my life. -from Korean student
Wonderful. Audible, systematic and irresistible thought process that boost memory work and replication. Am making it a habit to consult your channel. Thanks a lot.
I have a question. Is cyclic rule applicable for any and all functions? Or is it applicable only for exact differential functions, or state functions, and so on. I'm asking if there's any constraint at all on the type of function this rule can be applicable to. Because i saw u use reciprocal rule on this formula's derivation, which is only applicable for state functions (exact differentials) Please help
This is an excellent channel for learning physical chemistry.
I wonder why TH-cam don't recommend this channel to everyone..!
Very nice explanation, thank you very much. Sad that not many students discovered the channel.
Thanks. No need to be sad -- my own students have discovered it.
I finally found cyclic rule explanation... very nice and kind explan...
I can't speak eng well but i want to say thank you
this video saved my life.
-from Korean student
You're very welcome
I am an undergraduate studying engineering and I find this beautiful and useful.
Wonderful. Audible, systematic and irresistible thought process that boost memory work and replication. Am making it a habit to consult your channel. Thanks a lot.
My pleasure. I'm glad it resonates with you
very nice explanation.........really worthy.......
Thanks, I appreciate that
THANK YOU. made so much sense of it]
It's much easier when it makes sense, right?
very nice explanation
thanks
Very useful
I'm glad to hear that, thanks
Hello! Thank you very much! How do you write inversely?
I don't write backwards at all -- I make the computer do that difficult work instead. Here is an explainer: th-cam.com/video/YmvJVkyJbLc/w-d-xo.html
@@PhysicalChemistry thank you sir! Really appreciate it)
Thank you helped a lot..
You're very welcome
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Thank you so much
You're welcome
I have a question. Is cyclic rule applicable for any and all functions? Or is it applicable only for exact differential functions, or state functions, and so on. I'm asking if there's any constraint at all on the type of function this rule can be applicable to. Because i saw u use reciprocal rule on this formula's derivation, which is only applicable for state functions (exact differentials)
Please help
That's a great question. Your intuition is right: you can't use the cyclic rule for inexact differentials.
@@PhysicalChemistry wow thanks for confirming that. i didnt expect a reply on an year old video haha, glad u replied :)
Cool
I agree -- this is a great equation. It's pretty, and also very useful