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Line 1: {{Short description\|Simulation of multiple aspects of physics}} {{Computational physics}} In [[computational model\|computational modelling]], '''multiphysics simulation''' (often shortened to simply "multiphysics") is defined as the simultaneous simulation of different aspects of a physical system or systems and the interactions among them.<ref name=":0">{{Cite book\|last=Liu\|first=Zhen~~\|url=https://www.worldcat.org/oclc/1044733613~~\|title=Multiphysics in Porous Materials\|date=2018\|publisher=Springer\|isbn=978-3-319-93028-2\|___location=Cham, Switzerland\|oclc=1044733613}}</ref> For example, simultaneous simulation of the physical stress on an object, the temperature distribution of the object and the thermal expansion which leads to the variation of the stress and temperature distributions would be considered a multiphysics simulation.<ref>{{Cite news\|url=https://eandt.theiet.org/content/articles/2015/03/multiphysics-brings-the-real-world-into-simulations/\|title=Multiphysics brings the real world into simulations\|date=2015-03-16\|access-date=2018-08-19\|language=en-US}}</ref> Multiphysics simulation is related to multiscale simulation, which is the simultaneous simulation of a single process on either multiple time or distance scales.<ref>{{Cite journal\|last1=Groen\|first1=Derek\|last2=Zasada\|first2=Stefan J.\|last3=Coveney\|first3=Peter V.\|date=March 2014\|title=Survey of Multiscale and Multiphysics Applications and Communities\|url=https://doi.org/10.1109/MCSE.2013.47\|journal=Computing in Science & Engineering\|volume=16\|issue=2\|pages=34–43\|arxiv=1208.6444\|doi=10.1109/mcse.2013.47\|s2cid=6301539 \|issn=1521-9615}}</ref> As an [[Interdisciplinarity\|interdisciplinary]] field, multiphysics simulation can span many science and engineering disciplines. Simulation methods frequently include [[numerical analysis]], [[partial differential equations]] and [[tensor analysis]].<ref>{{Cite web\|url=https://www.multiphysics.us\|title=Multiphysics Learning & Networking - Home Page\|website=www.multiphysics.us\|access-date=2018-08-19}}</ref> <!-- Possibly useful references <ref name=":1">{{Citation\|last=Krzhizhanovskaya\|first=Valeria V.\|title=Simulation of Multiphysics Multiscale Systems: Introduction to the ICCS'2007 Workshop\|date=2007\|work=Computational Science – ICCS 2007\|pages=755–761\|publisher=Springer Berlin Heidelberg\|language=en\|doi=10.1007/978-3-540-72584-8_100\|isbn=9783540725831\|last2=Sun\|first2=Shuyu\|doi-access=free}}</ref><ref name=":2">{{cite arxiv\|last=Groen\|first=Derek\|last2=Zasada\|first2=Stefan J.\|last3=Coveney\|first3=Peter V.\|date=2012-08-31\|title=Survey of Multiscale and Multiphysics Applications and Communities\|eprint=1208.6444\|class=cs.OH}}</ref> <ref>{{Cite web\|url=https://nafems.org/downloads/FENet.../St...2005/fenet_malta_may2005_mpa.pdf\|title=NAFEMS downloads engineering analysis and simulation - FEA, Finite Element Analysis, CFD, Computational Fluid Dynamics, and Simulation\|last=www.duodesign.co.uk\|website=nafems.org\|access-date=2018-08-19\|archive-url=https://web.archive.org/web/20180819214305/https://www.nafems.org/downloads/FENet.../St...2005/fenet_malta_may2005_mpa.pdf\|archive-date=2018-08-19\|url-status=dead}}</ref> <ref>{{Cite journal\|last=Thilmany\|first=Jean\|date=2010-02-01\|title= Multiphysics: All at Once\|journal= Mechanical Engineering\|volume=132\|issue=2\|pages=39–41\|doi=10.1115/1.2010-Feb-5\|issn=0025-6501\|doi-access=free}}</ref> --> Line 23 ⟶ 24: Generally speaking, multiphysics simulation is much harder than that for individual aspects of the physical processes. The main extra issue is how to integrate the multiple aspects of the processes with proper handling of the interactions among them. Such ~~issue~~issues ~~becomes~~become quite difficult when different types of numerical methods are used for the simulations of individual physical aspects. For example, when simulating a [[fluid-structure interaction]] problem with typical Eulerian finite volume method for flow and Lagrangian finite element method for structure dynamics.