Innovation + Implementation℠

Matrix-Math©

Advanced Matrix Algebra for Physics

If you work with matrices extensively this tool is for you.

Matrix image

Download the zip file and unzip it to install it.

Totally self-contained, for any MSWindows host computer*. In a command window in the unzip folder type:

matrix-math  HOW_TO_USE_M-M.nbk 
That file then shows you examples to start you working with Matrix-Math immediately.
Get support via the 'message us' button on the support page.




Matrix-Math© in Depth

Matrix-Math has been specifically written for ease-of-use, flexability, and versatility, while having speed, power, and a wealth of advanced features. It reads a plain text notebook to perform any sequence of matrix, vector, number and scalar operations. Results are written either to a separate plain text output notebook or back to the input notebook (the default) at the user's option.

Input Notebooks contain the user's descriptive and explanatory information interspersed with the commands that perform the calculations. The command expressions follow common math syntax for the operations they perform, so require hardly any learning effort. They cover the full range of matrix operations commonly required as well as many more advanced ones rarely seen in a program such as this. The commands handle all eligible types of variables appropriately and interchangeably internally, saving the user from managing fussy details better handled programatically.

Input Notebooks are free format, allowing a project to be structured any way desired. The quick startup and ease-of-use features make Matrix-Math ideal for students, new and occasional users, while its notebook method makes it indispensible for frequent users of matrix algebra such as those teaching linear algebra. In addition its speed of operation and advanced physics and Lie-algebra-representations-oriented features make it well-suited for advanced math and physics workers and researchers.

Matrix-Math overlaps in some areas with some well-known computer algebra systems. It differs from the high-end ones by being free, by the simplicity and generality of its expressons, by its flexible formatting, and by its special features. It differs from the free ones by being much lighter weight and faster, by its simpler, more general syntax and flexible formatting, and by its wider range of matrix operations.

Matrix-Math's output notebook follows the order of the input notebook. Results of the command operations appear where they occur, marked by an optional vertical bar in the first column, making for a convenient automatic record of the reasoning, logic and sequence of steps of a matrix project of any magnitude. Output notebooks are ideal for capturing and submitting course work and problem sets involving matrices as well as for accurately documenting more advanced investigations.

Input notebooks are written with any plain text Unicode UTF-8-enabled text editor and given the .nbk extension. Each notebook run normally completes in a few seconds or less, so developing a notebook solution is essentially interactive. Extensive error trapping and reporting and a debug output option are provided for quick, easy troubleshooting.

Matrix-Math works with numeric and symbolic input: Integers, decimals, rationals and floating point numbers, as well as a very general form of symbolic expression and complex numbers. Numeric results are given to the full single-precision capability of the host computer in the appropriate format. It does not currently feature graphing nor emphasize solving linear equations since those capabilities are readily available elsewhere.

Download the zip file and unzip it to install it.

Download the zip file and unzip it to install it.

Please let us know how it works for you!
Cite it in your research results, course notes or texts as Matrix-Math©, matrix-math.net, Nova Software, Inc., 2022
* Contact us for a Linux version. Not available on MacOS, or Android.