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A solution of the Boltzmann equation in the presence of inelastic collisions
Irina Shishkova
, Sergei Sazhin
, Jianfei Xie
University of Brighton
Research output
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peer-review
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Keyphrases
Boltzmann Equation
100%
Inelastic Collisions
100%
N-Dodecane
66%
Internal Degrees of Freedom
66%
Degrees of Freedom
66%
Kinetic Energy
66%
Total Energy
33%
Physical Space
33%
Mass Flux
33%
Center of Mass
33%
Heat Flux
33%
State Change
33%
First Problem
33%
One-dimensional Heat Transfer
33%
Internal Energy
33%
N-dimensional Sphere
33%
Projection of a Point
33%
Shock Wave Structure
33%
Six Dimensions
33%
Uniform Probability Distribution
33%
Squared Radius
33%
Engineering
Boltzmann Equation
100%
Degree of Freedom
100%
One Dimensional
50%
Internal Degree
50%
Internal Energy
25%
Physical Space
25%
Reference System
25%
Mass Transport
25%
Mathematics
Boltzmann Equation
100%
Degree of Freedom
100%
Reference System
25%
Internal Energy
25%
Probability Distribution
25%
Material Science
Surface (Surface Science)
100%