About This project is an interactive, scroll-based website about J. Robert Oppenheimer, combining HTML, CSS, JavaScript, and Three.js for 3D visuals. As users scroll, scenes change dynamically, telling Oppenheimer's story with smooth transitions and responsive design. The dark-themed aesthetic and 3D elements create an engaging, educational experience. This repository contains a JAX-based numerical solver for the Tolman–Oppenheimer–Volkoff (TOV) equations, which describe the internal structure of static, spherically symmetric neutron stars in general relativity. The solver supports spline-based equations of state, Runge–Kutta 4th-order integration, and automatic surface extrapolation using JAX and lax.scan. PYTOV is a simple Python implementation to integrate the Tolman-Oppenheimer-Volkoff (TOV) equations. The program PYTOV integrates the following set of four equations (): These equations include the TOV equations [1,2] supplemented with an equation for the total number of baryons in the compact star. The dependent variables are the gravitational mass, the gravitational potential, the pressure ... YouTube Studio est la plate-forme des créateurs. Elle rassemble tous les outils nécessaires pour gérer votre présence en ligne, développer votre chaîne, interagir avec votre audience et générer des re
