Differential form

In the mathematical fields of differential geometry and tensor calculus, differential forms are an approach to multivariable calculus that is independent of coordinates. Differential forms provide a unified approach to defining integrands over curves, surfaces, volumes, and higher-dimensional manifolds. The modern notion of differential forms was pioneered by Élie Cartan. It has many applications, especially in geometry, topology and physics.

For instance, the expression $f (x) dx$ from one-variable calculus is an example of a $1$ -form, and can be integrated over an interval $[a, b]$ in the domain of $f$ :

and similarly the expression $f (x, y, z) dx \land dy + g (x, y, z) dx \land dz + h (x, y, z) dy \land dz$ is a 2-form that has a surface integral over an oriented surface $S$ :

In the above expressions, and in the balance of this article, the symbol ^ denotes the exterior product, sometimes called the wedge product, of two differential forms.

Likewise, a $3$ -form $f (x, y, z) dx \land dy \land dz$ represents a volume element that can be integrated over a region of space. In general a $k$ -form is an object that may be integrated over $k$ -dimensional sets, and is homogeneous of degree $k$ in the coordinate differentials.

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