@5:11 The speaker says to use the “chain rule,” but I believe they are referring to the “product rule” of differentiation. Edit: Had the time slightly off
I forgot that the product rule is a special case of the chain rule for derivatives of multivariate functions. So, both are technically correct. My bad.
In the problem statement you said the x1, x2, and x are concentrations whereas later on in the video you say they're mass fractions. This is confusing for someone trying to work on the problem on their own. Otherwise, great explanation!
@5:11 The speaker says to use the “chain rule,” but I believe they are referring to the “product rule” of differentiation.
Edit: Had the time slightly off
I forgot that the product rule is a special case of the chain rule for derivatives of multivariate functions. So, both are technically correct. My bad.
@@daltonpruitt7772 Nice to Know that you found your mistake
Is there an example of mathematical model with a reaction?
In the problem statement you said the x1, x2, and x are concentrations whereas later on in the video you say they're mass fractions. This is confusing for someone trying to work on the problem on their own. Otherwise, great explanation!
Very much help full content
Awesome
It was very helpful