Quaternion methods and models of regular celestial mechanics and astrodynamics

Chelnokov, Yu. N.

doi:10.1007/s10483-021-2797-9

Cited by 19 publications

(1 citation statement)

References 62 publications

(199 reference statements)

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“…Finite difference equations are used to approximate derivatives of any order at any point, as long as there is a sufficient number of points [2,[7][8][9][10]. To calculate the numerical value of a derivative, finite differences use nearby points and their locations.…”

Section: Review Of Finite Difference Equations For Derivative Approxi...mentioning

confidence: 99%

Numerical Resolution of Differential Equations Using the Finite Difference Method in the Real and Complex Domain

Almeida Magalhães,

Brito,

Lamon

et al. 2024

Mathematics

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The paper expands the finite difference method to the complex plane, and thus obtains an improvement in the resolution of differential equations with an increase in numerical precision and a generalization in the mathematical modeling of problems. The article begins with a selection of the best techniques for obtaining finite difference coefficients for approximating derivatives in the real domain. Then, the calculation is expanded to the complex domain. The research expands forward, backward, and central difference approximations of the real case by a quadrant approximation in the complex plane, which facilitates the use in boundary conditions of differential equations. The article shows many real and complex finite difference equations with their respective order of error, intended to serve as a basis and reference, which have been tested in practical examples of solving differential equations used in engineering. Finally, a comparison is made between the real and complex techniques of finite difference methods applied in the Theory of Elasticity. As a surprising result, the article shows that the finite difference method has great advantages in numerical precision, diversity of formulas, and modeling generalities in the complex domain when compared to the real domain.

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Section: Review Of Finite Difference Equations For Derivative Approxi...mentioning

confidence: 99%