Definite Integral of Partial Derivative/Proof 1

Proof
From Leibniz's Integral Rule:


 * $\displaystyle \frac \d {\d y} \int_{\map a y}^{\map b y} \map f {x, y} \rd x = \map f {y, \map b y} \frac {\d b} {\d y} - \map f {y, \map a y} \frac {\d a} {\d y} + \int_{\map a y}^{\map b y} \frac {\partial} {\partial y} \map f {x, y} \rd x$

where $\map a y$, $\map b y$ are continuously differentiable.

Setting $\map a y$ and $\map b y$ constant, so that $\exists a, b \in \R: \map a y = a, \map b y = b$:


 * $\dfrac {\d a} {\d y} = \dfrac {\d b} {\d y} = 0$

from which the result follows immediately.