![Leibniz Integral Rule | Lecture 1 | General formula proof of differentiation under integral sign - YouTube Leibniz Integral Rule | Lecture 1 | General formula proof of differentiation under integral sign - YouTube](https://i.ytimg.com/vi/LQTgrr2qNT0/maxresdefault.jpg)
Leibniz Integral Rule | Lecture 1 | General formula proof of differentiation under integral sign - YouTube
![Universidad Politécnica de Puebla on Twitter: "#UnDíaComoHoy de 1675, Gottfried Leibniz usó por primera vez el símbolo de la integral, el mismo que se usa hoy en día. #UPPuebla https://t.co/TMyiEzF3lR" / Twitter Universidad Politécnica de Puebla on Twitter: "#UnDíaComoHoy de 1675, Gottfried Leibniz usó por primera vez el símbolo de la integral, el mismo que se usa hoy en día. #UPPuebla https://t.co/TMyiEzF3lR" / Twitter](https://pbs.twimg.com/media/EIDtlSfVUAAWYW1.png)
Universidad Politécnica de Puebla on Twitter: "#UnDíaComoHoy de 1675, Gottfried Leibniz usó por primera vez el símbolo de la integral, el mismo que se usa hoy en día. #UPPuebla https://t.co/TMyiEzF3lR" / Twitter
![MathType on Twitter: "Leibniz's Integral Rule for differentiation under the integral sign handles combining differentiation and integration. It's equivalent to the theorems from Schwartz (order of partial derivatives doesn't matter) and Fubini ( MathType on Twitter: "Leibniz's Integral Rule for differentiation under the integral sign handles combining differentiation and integration. It's equivalent to the theorems from Schwartz (order of partial derivatives doesn't matter) and Fubini (](https://pbs.twimg.com/media/DvWezqxWkAAxsNt.jpg)
MathType on Twitter: "Leibniz's Integral Rule for differentiation under the integral sign handles combining differentiation and integration. It's equivalent to the theorems from Schwartz (order of partial derivatives doesn't matter) and Fubini (
![SOLVED: 04. From the Gaussian integral dx = for a > 0 , use the Leibniz integral rule to obtain the integral x2e x2 dx SOLVED: 04. From the Gaussian integral dx = for a > 0 , use the Leibniz integral rule to obtain the integral x2e x2 dx](https://cdn.numerade.com/ask_images/90326c70b21b4fb7afc0d11234cd108e.jpg)
SOLVED: 04. From the Gaussian integral dx = for a > 0 , use the Leibniz integral rule to obtain the integral x2e x2 dx
![2. Procedimientos para calcular integrales | MA2 - Tema 4.3: Análisis II: Concepto de primitiva. integral indefinida 2. Procedimientos para calcular integrales | MA2 - Tema 4.3: Análisis II: Concepto de primitiva. integral indefinida](https://i.ytimg.com/vi/wABniEBf9co/maxresdefault.jpg)