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Autore principale: Bár, Filip
Natura: Preprint
Pubblicazione: 2024
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Accesso online:https://arxiv.org/abs/2403.05707
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author Bár, Filip
author_facet Bár, Filip
contents Integration is the final key step when turning an infinitesimal argument into a result applicable to quantities of finite size. Conceptually, it is about combining infinitesimal contributions to a finite whole. We make a first step towards a geometric theory of integration in the context of Synthetic Differential Geometry (SDG) by analysing the differential aspect of the integration process. Starting from two heuristic principles that combine the idea of differential forms as infinitesimal measures while formalising the process of taking infinitesimal differences at the same time we derive a general notion of differential form as an equivariant map from infinitesimal $n$-cuboids to the base ring coordinatising a line. Besides the familiar differential forms introduced by Cartan we discover two new types. We also discover a new differential operator besides the exterior derivative. Analogous to the relationship between the exterior derivative and the Stokes-Cartan integral theorem, this new operator is linked to the generalised Fundamental Theorem of Calculus in higher dimensions, as discussed in prior research. This shows that the Fundamental Theorem is an integral theorem like Stokes-Cartan, but for one of the new types of differential forms.
format Preprint
id arxiv_https___arxiv_org_abs_2403_05707
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Towards a geometric theory of integration
Bár, Filip
Differential Geometry
58A10, 58A03
Integration is the final key step when turning an infinitesimal argument into a result applicable to quantities of finite size. Conceptually, it is about combining infinitesimal contributions to a finite whole. We make a first step towards a geometric theory of integration in the context of Synthetic Differential Geometry (SDG) by analysing the differential aspect of the integration process. Starting from two heuristic principles that combine the idea of differential forms as infinitesimal measures while formalising the process of taking infinitesimal differences at the same time we derive a general notion of differential form as an equivariant map from infinitesimal $n$-cuboids to the base ring coordinatising a line. Besides the familiar differential forms introduced by Cartan we discover two new types. We also discover a new differential operator besides the exterior derivative. Analogous to the relationship between the exterior derivative and the Stokes-Cartan integral theorem, this new operator is linked to the generalised Fundamental Theorem of Calculus in higher dimensions, as discussed in prior research. This shows that the Fundamental Theorem is an integral theorem like Stokes-Cartan, but for one of the new types of differential forms.
title Towards a geometric theory of integration
topic Differential Geometry
58A10, 58A03
url https://arxiv.org/abs/2403.05707