Search engine for discovering works of Art, research articles, and books related to Art and Culture
Javascript must be enabled to continue!
Microscopic Interpretation of Arrhenius Parameters
View through CrossRef
This chapter reviews the microscopic interpretation of the pre-exponential factor and the activation energy in rate constant expressions of the Arrhenius form. The pre-exponential factor of apparent unimolecular reactions is, roughly, expected to be of the order of a vibrational frequency, whereas the pre-exponential factor of bimolecular reactions, roughly, is related to the number of collisions per unit time and per unit volume. The activation energy of an elementary reaction can be interpreted as the average energy of the molecules that react minus the average energy of the reactants. Specializing to conventional transition-state theory, the activation energy is related to the classical barrier height of the potential energy surface plus the difference in zero-point energies and average internal energies between the activated complex and the reactants. When quantum tunnelling is included in transition-state theory, the activation energy is reduced, compared to the interpretation given in conventional transition-state theory.
Oxford University Press
Title: Microscopic Interpretation of Arrhenius Parameters
Description:
This chapter reviews the microscopic interpretation of the pre-exponential factor and the activation energy in rate constant expressions of the Arrhenius form.
The pre-exponential factor of apparent unimolecular reactions is, roughly, expected to be of the order of a vibrational frequency, whereas the pre-exponential factor of bimolecular reactions, roughly, is related to the number of collisions per unit time and per unit volume.
The activation energy of an elementary reaction can be interpreted as the average energy of the molecules that react minus the average energy of the reactants.
Specializing to conventional transition-state theory, the activation energy is related to the classical barrier height of the potential energy surface plus the difference in zero-point energies and average internal energies between the activated complex and the reactants.
When quantum tunnelling is included in transition-state theory, the activation energy is reduced, compared to the interpretation given in conventional transition-state theory.
Related Results
Conclusion
Conclusion
The conclusion returns to the question of hermeneutics and interpreting Hobbes in different contexts, Hobbes is constituted by the interpretation imposed on him, making text and in...
Jurisdiction
Jurisdiction
Chapter 7 investigates the multiple ways arguers can question the legitimacy of an interpretation, thereby entering the stasis of jurisdiction. There are two main points of content...
Juxtaposition and the Elisha Cycle
Juxtaposition and the Elisha Cycle
This monograph examines the juxtaposition of narrative units in biblical narrative and the effect this has on interpretation. Early rabbinical and inner-biblical interpretations su...
Conclusion
Conclusion
This chapter examines the way in which the interpretation of the atonement argued for in this book, here baptized as ‘the Marian interpretation,’ fits with well-known biblical text...