Python functions for Quasi-1D Gasdynamics
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Updated
Nov 6, 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.
Thermodynamic cycles modeling for ideal, two phased and Van der Waals working fluids.
Use ideal gas law to calculate PV=nRT and speed of sound in the gas.
A physics engine that simulates ideal gas particles within a container. Built using C++ and Cinder framework
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 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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