Quasistatic process

Quasistatic process

In thermodynamics, a quasistatic process is a thermodynamic process that happens infinitely slowly. In practice, such processes can be approximated by performing them "very slowly".

A quasistatic process often ensures that the system will go through a sequence of states that are infinitesimally close to equilibrium, in which case the process is typically reversible. An example of a quasistatic process that is not reversible is the slow heat exchange between two bodies at two finitely different temperatures, where the heat exchange rate is controlled by an approximately adiabatic partition between the two bodies (Sears and Salinger, 1986) — in this case, no matter how slowly the process takes place, the states of the two bodies are never infinitesimally close to equilibrium, since thermal equilibrium requires that the two bodies be at precisely the same temperature.

Some ambiguity exists in the literature concerning the distinction between quasistatic and reversible processes, as these are sometimes taken as synonyms (Lavenda, 1978). The above definition is closer to the intuitive understanding of the word "quasi-" (almost) "static", while remaining technically different from reversible processes.

Bibliography

* Sears, F.W., Salinger, G.L. (1986), "Thermodynamics, Kinetic Theory, and Statistical Thermodynamics", 3rd edition (Addison-Wesley)
* Lavenda, B.H. (1978), "Thermodynamics of Irreversible Processes", Halsted.

ee also

* Reversible process (thermodynamics)
* Quasistatic equilibrium


Wikimedia Foundation. 2010.

Игры ⚽ Нужно решить контрольную?

Look at other dictionaries:

  • Quasistatic equilibrium — is the quasi balanced state of a thermodynamic system near to thermodynamic equilibrium in some sense or degree. A process is called quasi static when it follows a succession of equilibrium states; the surroundings may be irreversibly altered… …   Wikipedia

  • Quasistatic — can refer to: * Quasistatic process * Quasistatic equilibrium * Quasistatic loading * Quasistatic dynamics …   Wikipedia

  • quasistatic — /kwaziˈstætɪk/ (say kwahzee statik) adjective of or relating to a thermodynamic process in which the system remains infinitesimally close to equilibrium throughout …  

  • Thermodynamic process — A thermodynamic process may be defined as the energetic evolution of a thermodynamic system proceeding from an initial state to a final state. Paths through the space of thermodynamic variables are often specified by holding certain thermodynamic …   Wikipedia

  • Reversible process (thermodynamics) — For articles on other forms of reversibility, including reversibility of microscopic dynamics, see reversibility (disambiguation). In thermodynamics, a reversible process, or reversible cycle if the process is cyclic, is a process that can be… …   Wikipedia

  • Polytropic process — A polytropic process is a thermodynamic process that obeys the relation::P V^n = C,where P is pressure, V is volume, n is any real number (the polytropic index), and C is a constant. This equation can be used to accurately characterize processes… …   Wikipedia

  • Adiabatic process — This article covers adiabatic processes in thermodynamics. For adiabatic processes in quantum mechanics, see adiabatic process (quantum mechanics). For atmospheric adiabatic processes, see lapse rate. In thermodynamics, an adiabatic process or an …   Wikipedia

  • Isochoric process — An isochoric process, also called a constant volume process, an isovolumetric process, or an isometric process, is a thermodynamic process during which the volume of the closed system undergoing such a process remains constant. An isochoric… …   Wikipedia

  • Adiabatic theorem — The adiabatic theorem is an important concept in quantum mechanics. Its original form, due to Max Born and Vladimir Fock (1928),cite journal |author=M. Born and V. A. Fock |title=Beweis des Adiabatensatzes |journal=Zeitschrift für Physik A… …   Wikipedia

  • Jarzynski equality — The Jarzynski equality (JE) is an equation in statistical mechanics that relates free energy differences between two equilibrium states and non equilibrium processes. It is named after the physicist Christopher Jarzynski (then at Los Alamos… …   Wikipedia

Share the article and excerpts

Direct link
Do a right-click on the link above
and select “Copy Link”