Abstract
The model types supported by a modeling and simulation environment called ISMA are presented. A fragment of the grammar of the general-purpose modeling language LISMA used in ISMA is given. A typical material science and engineering problem, namely modeling and simulation of the heat transfer within a beam, is solved using ISMA. A grammar for specifying chemical kinetics problems is briefly presented in order to demonstrate how the developed mathematical software suite can be extended to a new domain.
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