Tensor Arithmetic, Geometry and Mathematical Principles of Fluid Mechanics in the Implementation of Direct Computational Experiments

Standard

Tensor Arithmetic, Geometry and Mathematical Principles of Fluid Mechanics in the Implementation of Direct Computational Experiments. / Bogdanov, A.V.; Khramushin, V.N.

2015. 43 Abstract from International Conference on Mathematical Modeling and Computational Physiscs (MMCP-2015), Stará Lesná, Slovakia.

Research output: Contribution to conference › Abstract

Harvard

Bogdanov, AV & Khramushin, VN 2015, 'Tensor Arithmetic, Geometry and Mathematical Principles of Fluid Mechanics in the Implementation of Direct Computational Experiments', International Conference on Mathematical Modeling and Computational Physiscs (MMCP-2015), Stará Lesná, Slovakia, 12/07/15 - 16/07/15 pp. 43.

APA

Bogdanov, A. V., & Khramushin, V. N. (2015). Tensor Arithmetic, Geometry and Mathematical Principles of Fluid Mechanics in the Implementation of Direct Computational Experiments. 43. Abstract from International Conference on Mathematical Modeling and Computational Physiscs (MMCP-2015), Stará Lesná, Slovakia.

Vancouver

Bogdanov AV, Khramushin VN. Tensor Arithmetic, Geometry and Mathematical Principles of Fluid Mechanics in the Implementation of Direct Computational Experiments. 2015. Abstract from International Conference on Mathematical Modeling and Computational Physiscs (MMCP-2015), Stará Lesná, Slovakia.

Author

Bogdanov, A.V. ; Khramushin, V.N. / Tensor Arithmetic, Geometry and Mathematical Principles of Fluid Mechanics in the Implementation of Direct Computational Experiments. Abstract from International Conference on Mathematical Modeling and Computational Physiscs (MMCP-2015), Stará Lesná, Slovakia.

BibTeX

@conference{ff33ba26f99848c0b0f0ab6655a9a04b,

title = "Tensor Arithmetic, Geometry and Mathematical Principles of Fluid Mechanics in the Implementation of Direct Computational Experiments",

abstract = "Digital computing system could serve as a basis of a unified formation and specialized mathematical language to adequately describe of phenomena and processes in physical field theory. The way to renewal a computers is using a multi-processor systems with using of quite common large arrays of memory. It revives on the new technical level on the theoretical foundations for a functional programming, allowing highly arbitrary description for the physical properties of plurality elementary numerical objects, which capable to independent existence in a virtual environment with similar entities, are jointly modeling to real physical processes and realization of applied computational experiments with continuous control state of the substance and correctness of the physical laws. As a result of years research is summarize fundamental knowledge by elementary tensor notation for a numeric objects, which providing a linear space interpolation for a models of physical laws, as a mathematical models for continuum in Eucli",

author = "A.V. Bogdanov and V.N. Khramushin",

year = "2015",

language = "English",

pages = "43",

note = "International Conference on Mathematical Modeling and Computational Physiscs (MMCP-2015) ; Conference date: 12-07-2015 Through 16-07-2015",

url = "http://web.tuke.sk/mmcp/mmcp2015/index.php",

}

RIS

TY - CONF

T1 - Tensor Arithmetic, Geometry and Mathematical Principles of Fluid Mechanics in the Implementation of Direct Computational Experiments

AU - Bogdanov, A.V.

AU - Khramushin, V.N.

PY - 2015

Y1 - 2015

N2 - Digital computing system could serve as a basis of a unified formation and specialized mathematical language to adequately describe of phenomena and processes in physical field theory. The way to renewal a computers is using a multi-processor systems with using of quite common large arrays of memory. It revives on the new technical level on the theoretical foundations for a functional programming, allowing highly arbitrary description for the physical properties of plurality elementary numerical objects, which capable to independent existence in a virtual environment with similar entities, are jointly modeling to real physical processes and realization of applied computational experiments with continuous control state of the substance and correctness of the physical laws. As a result of years research is summarize fundamental knowledge by elementary tensor notation for a numeric objects, which providing a linear space interpolation for a models of physical laws, as a mathematical models for continuum in Eucli

AB - Digital computing system could serve as a basis of a unified formation and specialized mathematical language to adequately describe of phenomena and processes in physical field theory. The way to renewal a computers is using a multi-processor systems with using of quite common large arrays of memory. It revives on the new technical level on the theoretical foundations for a functional programming, allowing highly arbitrary description for the physical properties of plurality elementary numerical objects, which capable to independent existence in a virtual environment with similar entities, are jointly modeling to real physical processes and realization of applied computational experiments with continuous control state of the substance and correctness of the physical laws. As a result of years research is summarize fundamental knowledge by elementary tensor notation for a numeric objects, which providing a linear space interpolation for a models of physical laws, as a mathematical models for continuum in Eucli

M3 - Abstract

SP - 43

T2 - International Conference on Mathematical Modeling and Computational Physiscs (MMCP-2015)

Y2 - 12 July 2015 through 16 July 2015

ER -

ID: 6940997