Molecular chaos

In the kinetic theory of gases in physics, the molecular chaos hypothesis (also called Stoßzahlansatz in the writings of Paul and Tatiana Ehrenfest) is the assumption that the velocities of colliding particles are uncorrelated, and independent of position. This means the probability that a pair of particles with given velocities will collide can be calculated by considering each particle separately and ignoring any correlation between the probability for finding one particle with velocity v {\displaystyle v} and probability for finding another velocity v ′ {\displaystyle v'} in a small region δ r {\displaystyle \delta r} .

Source: Wikipedia — Molecular chaos (CC BY-SA 4.0)

Molecular chaos

In the kinetic theory of gases in physics, the molecular chaos hypothesis (also called Stoßzahlansatz in the writings of Paul and Tatiana Ehrenfest) is the assumption that the velocities of colliding particles are uncorrelated, and independent of position. This means the probability that a pair of particles with given velocities will collide can be calculated by considering each particle separately and ignoring any correlation between the probability for finding one particle with velocity v {\displaystyle v} and probability for finding another velocity v ′ {\displaystyle v'} in a small region δ r {\displaystyle \delta r} .

Source: Wikipedia "Molecular chaos" · CC BY-SA 4.0

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