Arrhenius equation

Arrhenius equation

      mathematical expression that describes the effect of temperature on the velocity of a chemical reaction, the basis of all predictive expressions used for calculating reaction-rate (reaction rate) constants. In the Arrhenius equation, k is the reaction-rate constant, A and E are numerical constants characteristic of the reacting substances, R is the thermodynamic gas constant, and T is the absolute temperature. The equation is commonly given in the form of an exponential function,

k = Aexp(−E/RT),
and it predicts that a small increase in reaction temperature will produce a marked increase in the magnitude of the reaction-rate constant.

      The Arrhenius equation was originally formulated by J.J. Hood on the basis of studies of the variation of rate constants of some reactions with temperature. The Swedish chemist Svante Arrhenius (Arrhenius, Svante August), for whom the equation is named, showed that the relationship is applicable to almost all kinds of reactions. He also provided a theoretical basis for the equation by an analogy with the expression for the thermodynamic equilibrium constant. Later, the numerical constants A and E were shown by the collision and transition-state theories of chemical reactions to represent quantities indicative of the fundamental process of chemical reactions; i.e., E represents the energy of activation, and A represents the frequency at which atoms and molecules collide in a way that leads to reaction.

* * *


Universalium. 2010.

Игры ⚽ Поможем написать реферат

Look at other dictionaries:

  • Arrhenius equation — The Arrhenius equation is a simple, but remarkably accurate, formula for the temperature dependence of the rate constant, and therefore, rate of a chemical reaction. [http://www.iupac.org/goldbook/A00446.pdf Arrhenius equation] IUPAC Goldbook… …   Wikipedia

  • Arrhenius equation — noun An equation which approximates the dependence of the rate of any chemical reaction on the temperature …   Wiktionary

  • Arrhenius equation — an equation describing the temperature dependence of a reaction rate constant, k = Ae−ΔEa/RT, where k is the rate constant, e is the base of natural logarithms, ΔEa the activation energy, R the gas constant, T the absolute… …   Medical dictionary

  • Arrhenius equation formula theory (doctrine) — Ar·rhe·ni·us equation, formula, theory (doctrine) (ə reґne əs) [Svante August Arrhenius, Swedish chemist, 1859–1927] see under equation, formula, and theory …   Medical dictionary

  • Arrhenius plot — An Arrhenius plot displays the logarithm of a rate (ln(k), ordinate axis) plotted against inverse temperature (1/T, abscissa). Arrhenius plots are often used to analyze the effect of temperature on the rates of chemical reactions. For a single… …   Wikipedia

  • Arrhenius, Svante August — ▪ Swedish chemist Introduction born Feb. 19, 1859, Vik, Swed. died Oct. 2, 1927, Stockholm  Swedish physicist and physical chemist known for his theory of electrolytic dissociation and his model of the greenhouse effect. In 1903 he was awarded… …   Universalium

  • Equation d'Eyring — Équation d Eyring L équation d Eyring, aussi appelée équation d Eyring Polanyi en cinétique chimique, relie la vitesse de réaction à la température. Elle a été établie quasi simultanément en 1935 par Henry Eyring, M.G. Evans et Michael Polanyi.… …   Wikipédia en Français

  • Arrhénius — Svante August Arrhenius Pour les articles homonymes, voir Arrhenius. Svante August Arrhenius Svante August Arrhe …   Wikipédia en Français

  • Équation d'Eyring — L équation d Eyring, aussi appelée équation d Eyring Polanyi en cinétique chimique, relie la vitesse de réaction à la température. Elle a été établie quasi simultanément en 1935 par Henry Eyring, M.G. Evans et Michael Polanyi. Cette équation… …   Wikipédia en Français

  • Arrhenius, Svante (August) — born Feb. 19, 1859, Vik, Swed. died Oct. 2, 1927, Stockholm Swedish physical chemist. His theories on dissociation of substances in solution into electrolytes or ions, first published in 1884 as his Ph.D. thesis, were initially met with… …   Universalium

Share the article and excerpts

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