Evolution of Ideal 2D Gas with Gravity JS Model DocumentsThis material has 3 associated documents. Select a document title to view a document's information. Main DocumentEvolution of Ideal 2D Gas with Gravity JS Model
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Kostas Papamichalis The Ideal 2D Gas with Gravity simulation shows the motion of a 2dimensional ideal gas with N particles confined in an vertical strip of the 2d Euclidean space, under the action of a constant gravitational field. At t=0 the the gas is far from its equilibrium state: the initial position distribution is uniform in a certain orthogonal region of the strip. The velocities of the particles have random directions and their magnitudes are identical. Because of the particleparticle (pp) interactions(8,9) and under the action of the gravitational field, the system is moving towards its state of equilibrium.
Released under a Creative Commons AttributionNoncommercialShare Alike 4.0 license. Last Modified February 17, 2022
This file has previous versions. Supplemental DocumentsEvolution of Ideal 2D Gas DocumentationA supplemental pdf document describes the theoretical model of the 2dimensional gas and derives the probability distribution in the phase space, which determines its equilibrium state.
Last Modified February 17, 2022
This file is included in the fulltext index. Source Code DocumentsEvolution of Ideal 2D Gas with Gravity EJS Source CodeSource code for Evolution of Ideal 2D Gas with Gravity JS Model. Open this file using the JavaScript version of EJS.
Released under a Creative Commons AttributionNoncommercialShare Alike 4.0 license. Last Modified February 17, 2022
