De Rham derivative satisfies Leibniz rule: Difference between revisions

Latest revision as of 19:37, 18 May 2008

Statement

Let $M$ be a differential manifold. Consider the de Rham derivative on $M$ , defined as a map:

$d:C^{\infty }(M)\to \Gamma (T^{*}M)$

Then $d$ satisfies the Leibniz rule:

$d(fg)=g(df)+f(dg)$

In other words, $d$ is a derivation from the algebra $C^{\infty }(M)$ to the module $\Gamma (T^{*}M)$ .

Proof

To verify equality of the two sides, we need to verify that for any vector field $X$ , the two sides evaluate to the same thing for $X$ . The left side, evaluated on $X$ , yields:

$X(fg)$

The right side, evaluated on $X$ , yields:

$g(Xf)+f(Xg)$

The equality of these two sides follows from the Leibniz rule for derivations.

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 ==Statement==
-Let <math>M</math> be a [[differential manifold]]. Consider the [[de Rham derivative for functions]] on <math>M</math>, defined as a map:
+Let <math>M</math> be a [[differential manifold]]. Consider the [[de Rham derivative of a function|de Rham derivative]] on <math>M</math>, defined as a map:
 <math>d: C^\infty(M) \to \Gamma(T^*M)</math>