ALEGRA-MHD : version 4.6 | Zendy

Christopher J. Garasi | Zendy; Kyle Cochrane | Zendy; T. A. Mehlhorn | Zendy; Thomas A. Haill | Zendy; R.M. Summers | Zendy; Allen C. Robinson | Zendy

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ALEGRA-MHD : version 4.6

Author(s) -

Christopher J. Garasi,

Kyle Cochrane,

T. A. Mehlhorn,

Thomas A. Haill,

R.M. Summers,

Allen C. Robinson

Publication year - 2005

Language(s) - English

Resource type - Reports

DOI - 10.2172/920811

Subject(s) - inviscid flow , magnetohydrodynamics , magnetohydrodynamic drive , eulerian path , physics , shock (circulatory) , thermal conduction , mechanics , distortion (music) , code (set theory) , finite element method , shock wave , classical mechanics , lagrangian , computational physics , computer science , plasma , theoretical physics , thermodynamics , nuclear physics , medicine , amplifier , optoelectronics , set (abstract data type) , cmos , programming language

ALEGRA is an arbitrary Lagrangian-Eulerian finite element code that emphasizes large distortion and shock propagation in inviscid fluids and solids. This document describes user options for modeling resistive magnetohydrodynamic, thermal conduction, and radiation emission effects

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