This is an introductory text to reaction dynamics. Topics
include: understanding molecular collisions, molecular
collisions, scattering as a probe of the collision dynamics,
the polyatomic approach to chemical dynamics, the practice of
molecular reaction dynamics, molecular energy transfer, and
reaction dynamics and chemical reactivity.
%0 Book
%1 rlevine87:dynamics
%A Levine, Raphael D.
%A Bernstein, Richard B.
%C New York
%D 1987
%I Oxford University Press, Inc.
%K chemistry dynamics kinetics mechanics physics quantum reaction scattering theory
%T Molecular Reaction Dynamics and Chemical Reactivity
%X This is an introductory text to reaction dynamics. Topics
include: understanding molecular collisions, molecular
collisions, scattering as a probe of the collision dynamics,
the polyatomic approach to chemical dynamics, the practice of
molecular reaction dynamics, molecular energy transfer, and
reaction dynamics and chemical reactivity.
%Z Revised edition of Molecular Reaction Dynamics (Clarendon Press, Oxford, 1974).
@book{rlevine87:dynamics,
abstract = {This is an introductory text to reaction dynamics. Topics
include: understanding molecular collisions, molecular
collisions, scattering as a probe of the collision dynamics,
the polyatomic approach to chemical dynamics, the practice of
molecular reaction dynamics, molecular energy transfer, and
reaction dynamics and chemical reactivity.},
added-at = {2013-03-23T15:47:42.000+0100},
address = {New York},
annote = {Revised edition of \emph{Molecular Reaction Dynamics} (Clarendon Press, Oxford, 1974).},
author = {Levine, Raphael D. and Bernstein, Richard B.},
biburl = {https://www.bibsonomy.org/bibtex/23d79b464976c7ee5befe14ce69c1b973/drmatusek},
interhash = {d24c9d84888433f0e8654d10546025d2},
intrahash = {3d79b464976c7ee5befe14ce69c1b973},
keywords = {chemistry dynamics kinetics mechanics physics quantum reaction scattering theory},
publisher = {Oxford University Press, Inc.},
timestamp = {2013-03-23T15:47:42.000+0100},
title = {Molecular Reaction Dynamics and Chemical Reactivity},
year = 1987
}