Maple and Mathematica : A Problem Solving Approach for Mathematics

Maple and Mathematica : A Problem Solving Approach for Mathematics

It is well known that computer algebra systems have revolutionized teaching and the learning processes in mathematics, science, and - gineering, allowing students to computationally investigate complicated problems to ?nd exact or approximate analytic solutions, numeric so- tions, and illustrative t...

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Détails bibliographiques
Auteurs principaux : Shingareva Inna (Auteur), Lizárraga-Celaya Carlos (Auteur)
Format : Livre
Langue : anglais
Titre complet : Maple and Mathematica : A Problem Solving Approach for Mathematics / Inna Shingareva, Carlos Lizàrraga-Celaya.
Publié : Vienna : Springer Vienna , 2007
Cham : Springer Nature
Accès en ligne : Accès Nantes Université
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Condition d'utilisation et de reproduction : Conditions particulières de réutilisation pour les bénéficiaires des licences nationales : chttps://www.licencesnationales.fr/springer-nature-ebooks-contrat-licence-ln-2017
Sujets :
Maple > logiciel
Mathematica > logiciel
Mathématiques > Logiciels
Calcul formel
Mathematics
Math Applications in Computer Science
Mathematical Software
Computational Mathematics and Numerical Analysis
Computational Science and Engineering
Computational Intelligence
Mathematical Applications in Computer Science
Documents associés : Autre format: Maple and mathematica
Autre format: Maple and Mathematica
Description
Résumé : It is well known that computer algebra systems have revolutionized teaching and the learning processes in mathematics, science, and - gineering, allowing students to computationally investigate complicated problems to ?nd exact or approximate analytic solutions, numeric so- tions, and illustrative two- and three-dimensional graphics. Since the 1960s there has existed individual packages for solving s- ci?c analytic, numerical, graphical and other problems. The need to solve all those problems with the aid of a single system, has led to the idea of construction of a modern general purpose computer algebra s- tem. The ?rst two papers describing analytic calculations realized on a computer were published in 1953 [7]. In the early 1970s, systems of - alytic computations (SAC),or computer algebra systems (CAS), began to appear. Computer algebra systems are computational interactive programs that facilitate symbolic mathematics and can handle other type of pr- lems. The ?rst popular systems were Reduce, Derive, and Macsyma, which are still commercially available. Macsyma was one of the ?rst and most mature systems. It was developed at the Massachusetts - stitute of Technology (MIT), but practically its evolution has stopped since thesummer of 1999. Afree software version of Macsyma, Maxima, is actively being maintained. To the present day, there have been developed more than a hundred computer algebra systems [7], [18]. Among these we can ?nd Axiom, Derive, Maxima, Maple, Mathematica, Matlab, MuMATH, MuPAD, Reduce, etc. All these systems can be subdivided into specialized and general-purpose computer algebra systems ([7], [18], [2])
ISBN : 978-3-211-73265-6
DOI : 10.1007/978-3-211-73265-6