QuentinWach / Introduction-to-Fluid-Simulations
Open-source π book providing a hands-on introduction to π fluid simulations in Python.
β12Updated 8 months ago
Alternatives and similar repositories for Introduction-to-Fluid-Simulations:
Users that are interested in Introduction-to-Fluid-Simulations are comparing it to the libraries listed below
- Estimate derivatives with finite differencesβ17Updated 4 months ago
- Discrete Differential Forms in arbitrary dimensionsβ11Updated 4 years ago
- Spectral Solver for Schrodinger-Poisson Quantum Systemβ30Updated last year
- Slides/notes and Jupyter notebook demos for an introductory course of numerical methods for PDEsβ19Updated 11 months ago
- π Code and tutorial material on scientific animations with SciPy.β21Updated 3 months ago
- Python package for computing and visualizing Lagrangian Descriptors in Dynamical Systemsβ20Updated 3 years ago
- A lightweight computational physics framework, based on the organization of turboWAVE. Implements a "Simulation, PhysicsModule, ComputeToβ¦β10Updated last year
- FeynGrav is a Wolfram Mathematica package that implements Feynman rules for gravity within FeynCalc framewok.β11Updated 4 months ago
- Tutorials for doing scientific machine learning (SciML) and high-performance differential equation solving with open source software.β20Updated last year
- Repo to host book about Lagrangian Descriptors techniqueβ15Updated last year
- Symbolic calculus for partial differential equations (and variational forms)β22Updated last week
- A library for building finite difference simulationsβ34Updated 3 years ago
- Simulate Anderson localization and tight binding on graphs.β14Updated last year
- 2D Stable Fluids & 3D Stable Fluids using the Fast Fourier Transformation implemented efficiently in Julia.β14Updated 3 years ago
- Python package for analyzing and representing droplets and emulsionsβ12Updated this week
- Methods of numerical modelling with undergraduate level computational physics solutions with non-linear equations, gaussian probabilitiesβ¦β16Updated 5 years ago
- A library for creating lightweight views of matplotlib axes.β17Updated 6 months ago
- Simulation-Enabled Prediction, Inference, and Analysis: physics-informed statistical learning.β35Updated last year
- Python package for computing Kerr quasinormal mode frequencies, separation constants, and spherical-spheroidal mixing coefficientsβ10Updated 3 years ago
- Lecture notes for M3M6 Methods of Mathematical Physicsβ40Updated 4 years ago
- Python functions for orthogonal polynomials and (real, 2D, orthonormal) spherical harmonicsβ9Updated last year
- Python binding for odeiv2 interface from GNU Scientific Library (GSL)β14Updated 2 months ago
- Numerical simulation of magnetohydrodynamics.β31Updated 4 years ago
- A CPU- and GPU-friendly package for solving ordinary differential equationsβ50Updated 2 weeks ago
- These are handwritten solutions of almost all exercises in "Gauge Fields, Knots and Gravity" by John Baez & Javier P. Muniain.β15Updated 4 years ago
- Methods to extract advective, diffusive, stochastic and active transport barriers from 2D and 3D data.β23Updated 9 months ago
- Educational materials to learn how to employ Bayesian optimization techniques for parameter estimation of computational and statistical mβ¦β14Updated last year
- Python-based Process Operability Packageβ19Updated 11 months ago
- mechanics, statistical mechanics, fluid dynamics, thermodynamics, quantum mechanics, electromagnetismβ26Updated 5 years ago
- Classical Carleman solution of the viscous Burgers equation, used in https://arxiv.org/abs/2011.03185.β11Updated 4 years ago