Difference between revisions of "One-dimensional Brownian motion"

Latest revision as of 18:23, 18 January 2017

Virtual laboratory > Heat input > into a particle

This demonstration stand models continuous heating of a set of particles (the Brownian motion).

where [math]\eta[/math] is the specific viscosity, [math]\sigma^2[/math] is the variance, [math]\omega[/math] is the stiffness.

@@ Line 1: / Line 1: @@
-[[Virtual_laboratory]] > Heat input > [[One-dimensional Brownian motion | in particle]] <HR>
+[[ru:Одномерное броуновское движение]]
+[[Virtual laboratory]] > Heat input > [[One-dimensional Brownian motion | into a particle]] <HR>
-This stand shows a model of continuous heating of particles (Brownian motion).
+This demonstration stand models continuous heating of a set of particles (the Brownian motion).
 <math>d \dot u = -\eta \dot u \, dt - \omega u \, dt + b p \sqrt{dt}</math>
-where <math>\eta</math> — specific viscosity, <math>\sigma^2</math> — dispersion, <math>\omega</math> — inflexibility.
+where <math>\eta</math> is the specific viscosity, <math>\sigma^2</math> is the variance, <math>\omega</math> is the stiffness.
 {{#widget:Iframe |url=http://tm.spbstu.ru/htmlets/Tcvetkov/Equations/Heating/Heating_v1.2/equations.html |width=100% |height=750 |border=0 }}
+<!--
 == List of projects ==
 *Heat input:
 **[[One-dimensional Brownian motion | in particle]]
 **[[Heat a one- dimensional grain| in grain (the output of displacements and velocities)]]
-**[[Heat a one- dimensional grain: temperature | in grain (the output of temperature)]]
+**[[Heat a one- dimensional grain: temperature | in grain (the output of temperature)]]-->
 [[Category: Virtual_laboratory]]