Python functions for Quasi-1D Gasdynamics
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Updated
Dec 26, 2024 - Python
Python functions for Quasi-1D Gasdynamics
Simulation of an Ideal Gas to Verify Maxwell-Boltzmann distribution
Ideal gas simulation in a 3D system at temperature T and volume L^3, where L is the length of the walls.
A SKI universe
A frozen shock solver for ideal and real gas equations of state.
Use ideal gas law to calculate PV=nRT and speed of sound in the gas.
Thermodynamic cycles modeling for ideal, two phased and Van der Waals working fluids.
This project find simulate a ideal gas of N particles and get boltzman distribution to measure his temperature.
Mathematical derivation of various physical phenomena
A physics engine that simulates ideal gas particles within a container. Built using C++ and Cinder framework
A simple Ideal Gas Simulation written in FORTRAN
At-home A-level Physics Experiment Resource
Simulation of ideal gas particles
This simulation will provide first-year engineering undergraduates with hands-on experience of ideal gases. Users explore the behaviour of a closed ideal gas system by setting its thermodynamic state variables/constants (e.g., 𝑝, 𝑉, 𝑇, 𝐸ᵢ , Δ𝑆), applying work and/or heat to the system.
A physics collision simulation featuring particles interacting in a two-dimensional box. Project aims to utilize graphical components, mathematical logic, and object oriented programing to produce an effective model with elastic collisions.
A simple script to plot volume X temperature X pressure for ideal gases
Simulation of thermodynamic processes in an ideal gas
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