classical-mechanics
There are 44 repositories under classical-mechanics topic.
mentat-collective/sicm-scheme-exercises
Exercises and notes on Structure and Interpretation of Classical Mechanics.
moncheri-jao/spicyphysics
Sup bois, here's my work
aldotb/Solve-classic-mechanics-problems-with-python
Solve classic mechanics problems with python, Solve problems of Static, Dynamics, Work, Energy, Kinematics, with Atb python library
mbivert/ttm
Susskind's Theoretical Minimum solutions (mainly classical mechanics so far)
mugalan/classical-mechanics-from-a-geometric-point-of-view
This is a collection of interactive IPython notebooks for teaching/learning mechanics from a geometric point of view
peeterjoot/classicalmechanics
Latex sources for classical mechanics notes compilation published at http://peeterjoot.com/writing/classical-mechanics/
JoetheManHowie/PhsyicsProblems
An assembly of some fun physics programs that require some computer algebra to solve.
Emperor963/DoublePendulumSimulator
Simulates a double pendulum with small deflections completely from scratch in Java
BarakHirshberg/MolecularSimulations
Course notes for Molecular Simulations 0351-4057, Tel Aviv University
FelipeHeide/AscensionApp
This repository contains a physics simulation application that calculates various kinematic parameters related to an object's motion. The application utilizes equations from classical mechanics to determine the time, height, speed, impact speed, and acceleration of an object under the influence of gravity on a specified planet. The calculated value
jjordanoc/classical-system-simulation
Simulation of a classical mechanical system with animation
kunalgorithm/asteroids
Asteroids in your browser
ramanakshay/mitocw
Solutions and notes for MIT OpenCourseWare (MITOCW) courses
100315115/double-pendulum
Scripts done for the study of the double pendulum motion.
efmp00/physics-codes
Reposity that I will use as a compendium for my numerical approaches to several physics problems
iagoleal/DeformableBodies.jl
Julia package dedicated to modeling and solving the change of reference frame problem for self-deforming bodies.
Louis-Finegan/Basic-Projectile-Simulator-Javascript
Basic Projectile simulation in javascript and HTML.
R-Van-Laer/Collapse-of-Classical-Electron
Project on C++ simulations of electron motion under Classical Collapse due to theoretical radiation
srmarcballestero/Newtons-Cradle
Simulate a Newton's Cradle and analyze the data generated.
alexkalitenko125/NN_stationary_action
NN for classical mechanics
aravbj/arav-arnold-cm
Solutions to Mathematical Methods of Classical Mechanics by V.A.Arnold
gubazoltan/Ball-and-spring
Code and Data for ball-and-spring manuscript
jafPrudente/pendolo
En este proyecto se soluciona varias veces el sistema de ecuaciones diferenciales resultantes del péndulo doble para poder obtener un fractal a partir del tiempo de giro en función de las condiciones iniciales.
LoopyNoodle/Elastic-Collisions
Plotting a 1D elastic collision for fun.
marco-david/symplectic-hnn
The training and evaluation code, synthetic datasets and pre-trained models accompanying the paper "Symplectic Learning for Hamiltonian Neural Networks" by M. David and F. Méhats.
PhilBaa/DG_AMR_ClassicalPlanckFokker
A finite element implementation of the classical Planck-Fokker equation using a discontinuous Galerkin method and adaptive mesh refinement
wdlang/poincare_recurrence
Mathematica codes used to generate figures in the paper 'Witnessing a Poincaré recurrence with Mathematica', Results in Physics 7, 3373 (2017)
avikeseal/gravity-simulation
simulation displaying Newtonian gravity between two objects with mass
Eldhose-147/Bachelor-Research-Project
Operatorial Approaches to Classical Mechanics.
hellpig/hopping-hoop-simulator
Simulate and animate a hopping hoop! Make minimal assumptions.
kty1004/StudyPlan
수학, 물리학, 통계학 그리고 인공신경망까지
sandyherho/doublePendulum
This repository contains the code and data associated with the paper titled "Reappraising double pendulum dynamics across multiple computational platforms"
Sgouwens/Celestial-Mechanics
Modelling solar systems using numerical methods and Newtonian physics.