The result of over 30 years of cutting-edge research and development, Maple helps you analyze, explore, visualize, and solve mathematical problems. With over 5000 functions, Maple offers the breadth, depth, and performance to handle every type of mathematics. Maple’s intuitive interface supports multiple styles of interaction, from Clickable Math™ tools to a sophisticated programming language. Using the smart document environment provided by Maple, you can automatically capture all of your technical knowledge in an electronic form that combines calculations, explanatory text and math, graphics, images, sound, and diagrams. Computer algebra system (CAS).

This software is also referenced in ORMS.

References in zbMATH (referenced in 4652 articles , 10 standard articles )

Showing results 1 to 20 of 4652.
Sorted by year (citations)

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  1. Fox, William P.; Bauldry, William C.: Advanced problem solving with Maple. A first course (2020)
  2. Boulier, François; Lemaire, François; Poteaux, Adrien; Moreno Maza, Marc: An equivalence theorem for regular differential chains (2019-2019)
  3. Gerling, Melanie: Bivariate chromatic polynomials in computer algebra (2019-2019)
  4. Alcázar, Juan Gerardo; Díaz-Toca, Gema M.; Hermoso, Carlos: The problem of detecting when two implicit plane algebraic curves are similar (2019)
  5. Al Woadud, K. M. Abdul; Kumar, Dipankar; Islam, Md. Jahirul; Kayes, Md. Imrul; Kundu, Amit Kumar: Extraction of solitary wave features to the Heisenberg ferromagnetic spin chain and the complex Klein-Gordon equations (2019)
  6. Barkatou, Moulay A.; Maddah, Suzy S.: Formal solutions of singularly-perturbed linear differential systems (2019)
  7. Barnard, Emily: The canonical join complex (2019)
  8. Baumann, Manuel; van Gijzen, Martin B.: An efficient two-level preconditioner for multi-frequency wave propagation problems (2019)
  9. Bennett, Michael A.; Gherga, Adela; Rechnitzer, Andrew: Computing elliptic curves over (\mathbbQ) (2019)
  10. Bernardi, Olivier; Curien, Nicolas; Miermont, Grégory: A Boltzmann approach to percolation on random triangulations (2019)
  11. Boros, Balázs; Hofbauer, Josef; Müller, Stefan; Regensburger, Georg: Planar S-systems: global stability and the center problem (2019)
  12. Brezinski, Claude; Redivo-Zaglia, Michela: The genesis and early developments of Aitken’s process, Shanks’ transformation, the (\varepsilon)-algorithm, and related fixed point methods (2019)
  13. Chan, Eunice Y. S.; Corless, Robert M.; Gonzalez-Vega, Laureano; Sendra, J. Rafael; Sendra, Juana: Algebraic linearizations of matrix polynomials (2019)
  14. D’Andrea, Carlos; Krick, Teresa; Szanto, Agnes; Valdettaro, Marcelo: Closed formula for univariate subresultants in multiple roots (2019)
  15. Dimitrios Michail, Joris Kinable, Barak Naveh, John V Sichi: JGraphT - A Java library for graph data structures and algorithms (2019) arXiv
  16. Gaál, István; Jadrijević, Borka; Remete, László: Simplest quartic and simplest sextic Thue equations over imaginary quadratic fields (2019)
  17. Gander, Walter; Shi, Qiquan: Matrix completion with (\varepsilon)-algorithm. In memory of Peter Wynn (1931--2017) (2019)
  18. Gazor, Majid; Kazemi, Mahsa: Normal form analysis of (\mathbbZ_2)-equivariant singularities (2019)
  19. Gbadeyan, Jacob Abiodun; Ogunmiloro, Oluwatayo Michael; Fadugba, Sunday Emmanuel: Dynamic response of an elastically connected double non-Mindlin plates with simply-supported end condition due to moving load (2019)
  20. Hauer, Michael; Jüttler, Bert; Schicho, Josef: Projective and affine symmetries and equivalences of rational and polynomial surfaces (2019)

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