Chapter 8 Notes > Section 4 > Page 1000 > Note (e)

	Notes for: Implications for Everyday Systems | Fluid Flow Convection When there is a temperature difference between the top and bottom of a fluid, hot fluid tends to rise, and cold fluid then comes down again. At low temperature differences (characterized by a low dimensionless Rayleigh number) a regular pattern of hexagonal Bénard convection cells is formed (see page 377). But as the temperature difference increases, a transition to turbulence is seen, with most of the same characteristics as in flow past an object. A cellular automaton model can be made by allowing particles with more than one possible energy: the average particle energy in a region corresponds to fluid temperature. PAGE IMAGE RELATED LINKS Pages related to this note: 377 All notes on this page: History of cellular automaton fluids Computational fluid dynamics Sound waves and shocks Splashes Generalizations of fluid flow Convection All notes for this section Downloadable programs for this page Downloadable images Search Forum for this page Post a comment NKS | Online FAQs

From Stephen Wolfram: A New Kind of Science [citation]