Maxima vs OpenAxiom

Struggling to choose between Maxima and OpenAxiom? Both products offer unique advantages, making it a tough decision.

Maxima is a Education & Reference solution with tags like algebra, calculus, equations, matrices, stem.

It boasts features such as Symbolic manipulation of mathematical expressions, Numerical computations, 2D/3D plotting and visualization, Solving equations and systems of equations, Matrix operations, Integration and differentiation, Taylor series expansions, Laplace and Fourier transforms, Probability and statistics functions, Unit conversions and pros including Free and open source, Cross-platform compatibility, Extensive mathematical capabilities, Can be extended with new functions and features, Good documentation and active user community.

On the other hand, OpenAxiom is a Education & Reference product tagged with algebra, calculus, computer-algebra-system, symbolic-computation, mathematics, research, education.

Its standout features include Symbolic computation, Algebraic algorithms, Calculus and analysis, Graphics and visualization, Programming language, and it shines with pros like Free and open source, Extensive mathematical capabilities, Can be extended via Spad programming language, Cross-platform compatibility.

To help you make an informed decision, we've compiled a comprehensive comparison of these two products, delving into their features, pros, cons, pricing, and more. Get ready to explore the nuances that set them apart and determine which one is the perfect fit for your requirements.

Maxima

Maxima

Maxima is an open-source computer algebra system that provides symbolic computation capabilities. It can manipulate mathematical expressions, differentiate and integrate functions, solve equations, work with matrices, graphs, and more. Useful for STEM fields like math, engineering, physics.

Categories:
Education & Reference Math & Science
algebra calculus equations matrices stem

Maxima Features

  1. Symbolic manipulation of mathematical expressions
  2. Numerical computations
  3. 2D/3D plotting and visualization
  4. Solving equations and systems of equations
  5. Matrix operations
  6. Integration and differentiation
  7. Taylor series expansions
  8. Laplace and Fourier transforms
  9. Probability and statistics functions
  10. Unit conversions

Pricing

  • Open Source

Pros

Free and open source

Cross-platform compatibility

Extensive mathematical capabilities

Can be extended with new functions and features

Good documentation and active user community

Cons

Steep learning curve

User interface not very intuitive

Limited capabilities for numeric computations compared to MATLAB or NumPy

Graphics and visualization not as advanced as MATLAB or Mathematica

OpenAxiom

OpenAxiom

OpenAxiom is an open-source computer algebra system for symbolic computation. It has capabilities for algebra, calculus, graphics, and more. It is useful for mathematical research, education, and applications.

Categories:
Education & Reference Mathematics
algebra calculus computer-algebra-system symbolic-computation mathematics research education

OpenAxiom Features

  1. Symbolic computation
  2. Algebraic algorithms
  3. Calculus and analysis
  4. Graphics and visualization
  5. Programming language

Pricing

  • Open Source

Pros

Free and open source

Extensive mathematical capabilities

Can be extended via Spad programming language

Cross-platform compatibility

Cons

Limited user interface compared to commercial alternatives

Smaller user community than proprietary options

Development has slowed in recent years