A real-time, WebGPU-accelerated simulation of the Large-Scale Structure of the Universe. Visualize the evolution of cosmic filaments and voids from z=10 to the present day, powered by 2LPT and quasi-N-body dynamics directly in your browser.

Code to generate conversations with Code Soliloquies for Reliable Calculations

Interactive tool to visualize galaxy clusters and cosmic voids bending light from background layers.

OpenWave is an open-source subatomic wave simulator for exploring fundamental physics through classical wave mechanics.

A Python-based simulation and visualization of the three-body problem, exploring chaotic gravitational interactions using numerical methods and interactive plots.

Explore computational physics in Threejs VR

Scalar Magnitudes are invariant quantities that conserve their value and form under transformations of translation and rotation, or changes between coordinate systems (Cartesian, polar, spherical, etc.)

Relational Magnitudes are invariant vectorial quantities that conserve their value and form under transformations of translation and rotation.

This is a computational exercise for learning about silver nanoprisms and why their colour is related to their diameter. Runs in Google Colab and uses Python3. Designed for high school students.

Data and Code Availability -- Universal spectral structure in pendulum-like systems

PHY1003 – Introduction to Computational Physics Lab | Developed by Dr. Sharad Chandra Tripathi | VIT Bhopal University

Visualizer for the Nilsson Model

Unified oscillator simulation suite with RK4 integration, comprehensive testing, and CI/CD

Code and dataset for paper on reconstructing 3D theme park ride trajectories using smartphone odometry.

This is a Jupyter Notebook to illustrate the difference between the Velocity-Verlet and Euler methods for integrating classical equations of motion for a homonuclear diatomic molecule.

Claude Skills for solving JEE Main, JEE Advanced, and NEET physics problems with internet-verified answers and WhatsApp-ready drafts.

Curated Jupyter notebooks spanning all eight MechanicsDSL physics domains — from introductory pendulum problems to graduate-level general relativistic geodesics. Launchable in Binder. Designed as standalone course material.

MATLAB library for simulating and solving classical physics problems.

A simple Python demo illustrating the extreme sensitivity of the triple-alpha fusion process (carbon production in stars) to tiny changes in nuclear resonance energy. Educational tool highlighting fine-tuning in stellar nucleosynthesis.

CMB Cold Spots as Energy Conservation Signatures: A Pedagogical Framework for Understanding Supervoid ISW Effects