X-Nico

2 unusual facts about Steady State


Steady

Steady state, a concept used in math and sciences where variables are time-constant

Steady state

Note that Robert Solow and Trevor Swan applied the term steady state a bit differently in their economic growth model.


Cyril Domb

Domb began writing his views reconciling the apparent contradictions between science and Judaism in 1961, when The Jewish Chronicle of London asked him for a 1000-word article on how Jewish teachings accord with the Big Bang and Steady State cosmological theories.

Oil refinery

Because of the high capacity, many of the units operate continuously, as opposed to processing in batches, at steady state or nearly steady state for months to years.

Steady state economy

Note that Robert Solow and Trevor Swan applied the term steady state a bit differently in their economic growth model.


see also

E.G.D. Cohen

Later with Denis Evans and Gary Morriss in 1990 he proved that for certain classes of thermostatted nonequilibrium steady states the relevant transport coefficient the transport coefficient has a simple relation to the sum of the largest and smallest Lyapunov exponents describing the trajectory of the N-particle steady state system in phase space.

Linear circuit

A linear circuit is an electronic circuit in which, for a sinusoidal input voltage of frequency f, any steady-state output of the circuit (the current through any component, or the voltage between any two points) is also sinusoidal with frequency f.

Q value

Fusion energy gain factor Q, the ratio of fusion power produced in a reactor to the power required to maintain the plasma in steady state

Steady State theory

Quasi-steady state cosmology (QSS) was proposed in 1993 by Fred Hoyle, Geoffrey Burbidge, and Jayant V. Narlikar as a new incarnation of the steady state ideas meant to explain additional features unaccounted for in the initial proposal.

Transient kinetic isotope fractionation

Transient kinetic isotope effects (or fractionation) occur when the reaction leading to isotope fractionation does not follow pure first-order kinetics and therefore isotopic effects cannot be described with the classical equilibrium fractionation equations or with steady-state kinetic fractionation equations (also known as the Rayleigh equation).