multivariable functions works when the partial derivatives are continous but

hvacwk

hvacwk

Answered question

2022-01-07

multivariable functions works when the partial derivatives are continous but if the function is just differentiable does the chain rule work ? I mean if z=f(x,y) is differentiable function and x=g(t),y=h(t) are also differentiable functions can we write:
dzdt=fx×dxdt+fy×dydt

Answer & Explanation

Stella Calderon

Stella Calderon

Beginner2022-01-08Added 35 answers

The derivative, if it exists, of a function f:RnRm at a point x is a linear transformation f(x):RnRm that satisifies
f(x+h)f(x)=f(x)h+r(h) where r=o(|h|)
Now, suppose, ϕ:RR2:t(g(t),h(t)) and f:R2R. If ϕ is differentiable at t=t0 and f is differentiable at (g(t0),h(t0)), then we can apply the chain rule to assert that fϕ:RR is differentiable at t=t0 and
(fϕ)(t0):RR exists and is equal to f(ϕ)(t0))ϕ(t0)
So far, nothing to do with partials.
Of course, it turns out that if the derivative exists then it matches your formula.
And if the relevant partial derivatives are continuous, the derivative exists and the formula is also satisfied.
On the other hand, if one or more of the partials is not continuous at a given point, the derivative may or may not exist there, and you need to check directly to see if (1) is satisfied.

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