Kinematic and Dynamic Analysis in Mathematica

Minimize your rigid-body-system design time and explore more design options with MechanicalSystems. This powerful package speeds up your prototyping and simulation tasks, helping you develop and modify complex models as well as instantly visualize and analyze your design changes.

Using the complete library of over 50 two- and three-dimensional geometric constraints in MechanicalSystems, you can easily model complex mechanical relationships and define custom algebraic constraints to model nongeometric or control relationships. The object-oriented, model-building commands let you assemble constraints into a complete mechanism that can be solved for component position, velocity and acceleration. By applying loads to the model, you can quickly solve for static reaction forces at mechanism joints or for dynamic forces when inertia properties are defined. The special Adams–Bashforth integrator, highly optimized for 3D motion problems, provides efficient forward dynamics simulations for underconstrained systems.

MechanicalSystems can also return mathematical components of a model in symbolic form, including equations of motion, algebraic constraints, inertia matrices and Coriolis forces. To visualize mechanism motion, extensive graphics functions let you locate and animate complex images.

The package comes with electronic documentation.

MechanicalSystems 2.2.0 requires Mathematica 10 or greater and is available for all Mathematica platforms.

Registered users of this application package may download their updates here.

MechanicalSystems is © 1994–2018 Robert Beretta.