Partial Derivative Product with variables as functions

Estane · Nov 21, 2012

Homework Statement

I'm trying to understand how a certain substitution can be made with regards to taking the partial derivative of a function product when the variable I am differentiating by is a function itself.

Homework Equations

(∂/∂p) (v(p)p(x,t)) = v(p) + (∂v/∂p)p

The Attempt at a Solution

My first thought was to use the product rule, but that seems to fall down with the function p(x,t) there. Am I missing something obvious here?

HallsofIvy · Nov 21, 2012

Because the derivative is with respect to p, the fact that p is a function of x and y is irrelevent. With f(p)= pv(p), by the product rule, df/dp= v+ p dv/dp. Notice that these are ordinary derivatives, not partial derivatives, because f depends on the single variable, p.

Estane · Nov 21, 2012

So if I'm understanding this correctly, all the derivatives should be ordinary rather than partial in this case?

HallsofIvy · Nov 21, 2012

Estane · Nov 21, 2012

Ok, thank you for your help.

Partial Derivative Product with variables as functions

Homework Statement

Homework Equations

The Attempt at a Solution

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