University of Birmingham experts have created open-source computer software that helps scientists understand how fast-moving ...

In his doctoral thesis, Michael Roop develops numerical methods that allow finding physically reliable approximate solutions ...

Python 3.15 introduces an immutable or ‘frozen’ dictionary that is useful in places ordinary dicts can’t be used.

Master computational physics with this stepwise guide to performing numerical calculations in Python! 🖥️ Learn how to implement algorithms, solve complex equations, and visualize results using Python ...

Physics and Python stuff. Most of the videos here are either adapted from class lectures or solving physics problems. I really like to use numerical calculations without all the fancy programming ...

Modified gravity framework exploring coherence-field coupling (ξRΦ²), curvature-EM coupling (κ_R RF²), and BSM parameter space (dark photon, axion). Validated 3D solver, null-result constraints, ...

QuatIca was inspired by the pioneering work in quaternion linear algebra, particularly the QTFM (Quaternion Toolbox for MATLAB) developed by Stephen J. Sangwine and Nicolas Le Bihan. Their ...

The challenge takes place from July 11-20 in designated South Florida locations. Participants compete for prizes, including $10,000 for removing the most pythons. Pythons must be killed humanely using ...

This study introduces a relatively new numerical technique for solving one-dimensional Fisher’s equation. The proposed numerical technique is a simple direct meshless method, which is based on the ...