High-precision physics engine dedicated to the study of standing waves and visualization of its normal modes.

A Python simulation of the double pendulum system using Lagrangian mechanics to demonstrate chaotic behavior.

A comprehensive computational physics project that simulates wave dynamics through coupled oscillator systems, exploring normal modes, symmetry effects, and wave propagation phenomena.

Classical MonteCarlo simulation using normal modes as coordinates

Physics simulation visualizing normal modes of coupled oscillators with comprehensive testing and CI/CD

A tool to perform quick normal mode analysis on a PDB file using Tirion's model.

کدی برای نمایش نرمال مد های قسمت 4.1.2 ی کتاب موج بصورت انیمیشن

Benchmarks for the effects of ocean. Compared between global solver SPECFEM3D Globe, regional solver RegSEM, and normal-mode calculations

Setup, run and analyse Adaptive MDeNM simulations on CHARMM

A variant of FORTRAN code QSSP for calculating normal modes (dispersion curves) of a spherically symmetric earth with the atmosphere, mantle, liquid and solid core structure

Small utilities to deal with normal modes in molecular physics

Setup and run aMDeNM simulations with Python

Repository for seamlessly downloading, extracting and using helioseismic eigenfunctions and eigenfrequencies.

MODE-TASK plugin for PyMOL

Fun simulations and numerical calculations for the everyday physicist.

Displace atomic coordinates along molecular normal modes.

PCA and normal mode analysis of proteins

Point symmetry analysis tool for theoretical chemistry objects

Elastic Network Contact Model (coarse-grained Normal Mode Analysis software)