The Solution of Embedding Problems in the Framework of GAPs with Applications on Nonlinear PDEs

Advances in Mathematical Physics ◽

10.1155/2009/120213 ◽

2009 ◽

Vol 2009 ◽

pp. 1-46

Author(s):

Reinhard Starkl

Keyword(s):

Differential Equations ◽

Function Theory ◽

Nonlinear Partial Differential Equations ◽

Complex Function ◽

Nonlinear Pdes ◽

Mathematical Framework ◽

Cauchy Integral ◽

Complex Function Theory ◽

Integral Theorem ◽

Cauchy Integral Theorem

The paper presents a special class of embedding problems whoes solutions are important for the explicit solution of nonlinear partial differential equations. It is shown that these embedding problems are solvable and explicit solutions are given. Not only are the solutions new but also the mathematical framework of their construction which is defined by a nonstandard function theory built over nonstandard algebraical structures, denoted as “GAPs”. These GAPs must not be neither associative nor division algebras, but the corresponding function theories built over them preserve the most important symmetries from the classical complex function theory in a generalized form: a generalization of the Cauchy-Riemannian differential equations exists as well as a generalization of the classical Cauchy Integral Theorem.

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The Research on the Relationship between Cauchy Integral Theorem and Complex Function Integral in Mechanics of Materials

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.502.120 ◽

2012 ◽

Vol 502 ◽

pp. 120-123

Author(s):

Xing Rong Sun

Keyword(s):

Integral Formula ◽

Complex Function ◽

Residue Theorem ◽

Cauchy Integral ◽

Integral Theorem ◽

Mechanics Of Materials ◽

Cauchy Integral Theorem ◽

Derivative Formula ◽

Higher Order Derivative ◽

The Relationship

This paper is the Cauchy integral theorem and integral of complex function carried out a comparative analysis, summarized in the Cauchy integral theorem and Cauchy integral formula, higher-order derivative formula, residue theorem and the relationship between the derivations to be proved, the formula can be used in these areas, such as mechanics of materials.

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Chapter 7 Complex Function Theory and Differential Equations

Hidden Harmony—Geometric Fantasies ◽

10.1007/978-1-4614-5725-1_8 ◽

2013 ◽

pp. 487-566

Author(s):

Umberto Bottazzini ◽

Jeremy Gray

Keyword(s):

Differential Equations ◽

Function Theory ◽

Complex Function ◽

Complex Function Theory

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Function Theoretic Integral Operator Methods for Partial Differential Equations(1)

Canadian Mathematical Bulletin ◽

10.4153/cmb-1980-018-0 ◽

1980 ◽

Vol 23 (2) ◽

pp. 127-135

Author(s):

Erwin Kreyszig

Keyword(s):

Differential Equation ◽

Partial Differential Equations ◽

Differential Equations ◽

Harmonic Functions ◽

Complex Analysis ◽

Function Theory ◽

Complex Function ◽

Complex Function Theory ◽

Partial Differential ◽

Linear Partial Differential Equations

It is well known that complex analytic functions and harmonic functions of two real variables are closely related, so that from methods and results in complex function theory one can easily obtain theorems on those harmonic functions. This is the prototype of a relation between complex analysis and a partial differential equation (Laplace's equation in two variables). In the case of more general linear partial differential equations, one can establish similar relations.

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