Describes the role of Arrhenius equation in chemical kinetic studies. Details on the properties of the Arrhenius equation; Information on the uses of the equation; Provision of statistical information regarding the equation.CarrollHarveyF.Alexander...
How can the polar cap potential, and thus convection, saturate when the ring current does not? We examine a possible explanation based on the reexamination of the Burton equation by Vasyliunas (2006). We show that this explanation is not a viable solution to the paradox since it would ...
To understand why this is the case, it is important to first understand how moisture distributes within a package, then how moisture transfer affects the RH inside the package over time. Moisture is held by solids to a different degree depending on the RH of the environment. Moisture sorption...
Growth is a widely used term in plant science and ecology, but it can have different meanings depending on the context and the spatiotemporal scale of analysis. At the meristem level, growth is associated with the production of cells and initiation of new organs. At the organ or plant scale...
The Arrhenius equation in chemical kinetics,k= Ae-Ea/RT, has, as T gets larger, an inflection point where it changes from an "exponentially increasing" curve to one approaching an asymptote of A. The inflection point occurs at T = Ea/2R. For any activation energy, the inflection point ...
The well-known Arrhenius equation predicts that EA and pf are correlated. EA reflects the energetic barrier to water transport: if EA is large, pf is small, and vice versa (Figure 1A). An exception would only be possible if a gain in entropy compensated for the high expense in enthalpy....