
Review of Short Phrases and Links 
This Review contains major "Arrhenius Equation" related terms, short phrases and links grouped together in the form of Encyclopedia article.
Definitions
 The Arrhenius equation is a simple, but remarkably accurate, formula for the temperature dependence of a chemical reaction rate.
 The Arrhenius equation is a simple, but remarkably accurate, formula for the temperature dependence of a chemical reaction rate.
(Web site)
 The Arrhenius equation was modified using this linear relation, leaving the activation energy as the only parameter affected by water stress.
(Web site)
 The Arrhenius equation is used in the study of reaction kinetics.
(Web site)
 Arrhenius Equation Arrhenius equation: expresses the relationship between the rate constant and the activation energy of a reaction.
(Web site)
 So, when a reaction has a rate constant which obeys the Arrhenius equation, a plot of ln(k) versus T 1 gives a straight line.
(Web site)
 Last check: 20071104) The Arrhenius equation relates temperature, rate constant, and activation energy.
(Web site)
Arrhenius Equation
 Arrhenius equation: Encyclopedia of chemistry, analytics & pharmaceutics with 64,557 entries.
 The Arrhenius equation and the lunar crater Arrhenius are named after him.
(Web site)
 The rate constants for reactions are temperature dependent and their increase with increasing temperature is described by the Arrhenius equation.
(Web site)
 So, when a reaction has a rate constant which obeys the Arrhenius equation, a plot of ln(k) versus T 1 gives a straight line.
 The Arrhenius equation is a simple, but remarkably accurate, formula for the temperature dependence of a chemical reaction rate.
 Some authors define a modified Arrhenius equation,[4] that makes explicit the temperature dependence of the preexponential factor.
(Web site)
 The Arrhenius equation gives the quantitative basis of the relationship between the activation energy and the rate at which a reaction proceeds.
 The Arrhenius Equation Quantitatively this relationship between the rate a reaction proceeds and its temperature is determined by the Arrhenius Equation.
(Web site)
 Consequences of this include (in addition to the results for ideal gases above), for example the Arrhenius equation of simple chemical kinetics.
(Web site)
 This results in an E a that is in principle a function of T (since the Arrhenius equation is not exact) but in practice the T dependence is very weak.
 The Arrhenius equation describes the response of biological processes to temperature.
(Web site)
Categories
 Temperature Dependent
 Increasing Temperature
 Rate Constant
 Glossaries > Glossary of Equations /
 Encyclopedia of Keywords > Time > Evolution > Biological Processes

Books about "Arrhenius Equation" in
Amazon.com


