Maxima is a system for the manipulation of symbolic and numerical expressions, including differentiation, integration, Taylor series, Laplace transforms, ordinary differential equations, systems of linear equations, polynomials, and sets, lists, vectors, matrices, and tensors. Maxima yields high precision numeric results by using exact fractions, arbitrary precision integers, and variable precision floating point numbers. Maxima can plot functions and data in two and three dimensions. Computer algebra system (CAS).

This software is also referenced in ORMS.

References in zbMATH (referenced in 138 articles , 1 standard article )

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  1. Birkandan, Tolga; Güzelgün, Ceren; Şirin, Elif; Uslu, Mustafa Can: Symbolic and numerical analysis in general relativity with open source computer algebra systems (2019)
  2. Cánovas, J. S.; Linero Bas, A.; Soler López, G.: Computing odd periods of alternating systems of affine circle maps (2019)
  3. Coelho, Carlos A.; Arnold, Barry C.: Finite form representations for Meijer (G) and Fox (H) functions. Applied to multivariate likelihood ratio tests using Mathematica, MAXIMA and R (2019)
  4. Coregliano, Leonardo N.; Parente, Roberto F.; Sato, Cristiane M.: On the maximum density of fixed strongly connected subtournaments (2019)
  5. Fortunati, Alessandro; Wiggins, Stephen: A Lie transform approach to the construction of Lyapunov functions in autonomous and non-autonomous systems (2019)
  6. Frangos, C.: Mathematical modelling and nonlinear control of a rear-wheel-drive vehicle by using the Newton-Euler equations - part 1 (2019)
  7. Haager, Wilhelm: Computer algebra with Maxima. Foundations of application and programming (2019)
  8. Ionescu, Marius; Savage, Thomas L.: The “hot spots” conjecture on the Vicsek set (2019)
  9. Ishitsuka, Yasuhiro; Ito, Tetsushi; Ohshita, Tatsuya: On algorithms to obtain linear determinantal representations of smooth plane curves of higher degree (2019)
  10. Kadry, Seifedine; Awad, Pauly: Mathematics for engineers and science labs using Maxima (2019)
  11. Lourenço, Bruno F.; Kitahara, Tomonari; Muramatsu, Masakazu; Tsuchiya, Takashi: An extension of Chubanov’s algorithm to symmetric cones (2019)
  12. Malajovich, Gregorio: Complexity of sparse polynomial solving: homotopy on toric varieties and the condition metric (2019)
  13. Öchsner, Andreas; Makvandi, Resam: Finite elements using Maxima. Theory and routines for rods and beams (2019)
  14. Öchsner, Andreas; Makvandi, Resam: Finite elements for truss and frame structures. An introduction based on the computer algebra system Maxima (2019)
  15. van Zandt, James R.: Efficient cubature rules (2019)
  16. Zimmermann, Paul; Casamayou, Alexandre; Cohen, Nathann; Connan, Guillaume; Dumont, Thierry; Fousse, Laurent; Maltey, François; Meulien, Matthias; Mezzarobba, Marc; Pernet, Clément; Thiéry, Nicolas M.; Bray, Eric; Cremona, John; Forets, Marcelo; Ghitza, Alexandru; Thomas, Hugh: Computational mathematics with SageMath. Translated from the 2013 French original by the authors (2019)
  17. Derigs, Dominik; Gassner, Gregor J.; Walch, Stefanie; Winters, Andrew R.: Entropy stable finite volume approximations for ideal magnetohydrodynamics (2018)
  18. Dobrushkin, Vladimir A.: Applied differential equations with boundary value problems (2018)
  19. Fortunati, Alessandro; Wiggins, Stephen: Transient invariant and quasi-invariant structures in an example of an aperiodically time dependent fluid flow (2018)
  20. Glader, Christer; Kurula, Mikael; Lindström, Mikael: Crouzeix’s conjecture holds for tridiagonal (3\times3) matrices with elliptic numerical range centered at an eigenvalue (2018)

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