Differential form Guide, Meaning , Facts, Information and Description

Table of contents

1 Gentler (and longer) introduction 2 Hardcore (but brief) definition and discussion 3 Integration of forms 4 Operations on forms

Gentler (and longer) introduction

We initially work in an open set in Rⁿ. A 0-form is defined to be a smooth function f. When we integrate a function f over an m-dimensional subspace S of Rⁿ, we write it as

Consider dx₁, ..., dx_n for a moment as formal objects themselves, rather than tags appended to make integrals look like Riemann sums. We call these and their negatives −dx₁, ..., −dx_n basic 1-forms.

We define a "multiplication" rule ∧, the wedge product on these elements, making only the anticommutativity restraint that

for all i and j. Note that this implies

.

We define the set of all these products to be basic 2-forms, and similarly we define the set of products

to be basic 3-forms, assuming n is at least 3. Now define a monomial k-form to be a 0-form times a basic k-form for all k, and finally define a k-form to be a sum of monomial k-forms.

We extend the wedge product to these sums by defining

etc., where dx_I and friends represent basic k-forms. In other words, the product of sums is the sum of all possible products.

Now, we also want to define k-forms on smooth manifolds. To this end, suppose we have an open coordinate cover. We can define a k-form on each coordinate neighborhood; a global k-form is then a set of k-forms on the coordinate neighborhoods such that they agree on the overlaps. For a more precise definition what that means, see manifold.

Hardcore (but brief) definition and discussion

In differential geometry, a differential form of degree k is a smooth section of the kth exterior power of the cotangent bundle of a manifold. At any point p on a manifold, a k-form gives a multilinear map from the k-th cartesian power of the tangent space at p to R.

For example, the differential of a smooth function on a manifold (a 0-form) is a 1-form.

1-forms are a particularly useful basic concept in the coordinate-free treatment of tensors. In this context, they can be defined as real-valued linear functions of vectors, and they can be seen to create a dual space with regard to the vector space of the vectors they are defined over. An older name for 1-forms in this context is "covariant vectors".

Integration of forms

Differential forms of degree k are integrated over k dimensional chainss. If k = 0, this is just evaluation of functions at points. Other values of k = 1, 2, 3, ... correspond to line integrals, surface integrals, volume integrals etc.

See also Stokes' theorem.

Operations on forms

The set of all k-forms on a manifold is a vector space. Furthermore, there are two other operations: wedge product and exterior derivative. d² = 0, see de Rham cohomology for more details.

The fundamental relationship between the exterior derivative and integration is given by the general Stokes' theorem, which also provides the duality between de Rham cohomology and the homology of chains.

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