A python code to calculate the Brownian motion of colloidal particles in a time varying force field.

Python solver for the Brownian, Stochastic, or Noisy Differential Equations

The Active Matter Evaluation Package (AMEP) - a Python library for the analysis of particle-based and continuum simulation data of soft and active matter systems

This repository contains an implementation of a brownian motion simulation created for the Simulación de Sistemas course at ITBA. It allows users to simulate the random motion of particles in a fluid and analyze the behavior of various physical systems under the influence of Brownian motion.

This code performs generalized Brownian dynamics (GBD) simulations of a microparticle embedded in a viscoelastic fluid and calculates and propagates statistical and other sources of error in passive microrheology

Brownian motion simulations using both random walk models and the overdamped Langevin equation

Python package for simulation and data analysis of interacting colloidal particle systems.