Chemistry-Study and teaching; Handouts; Thermodynamics; First law of thermodynamics; Chemical equilibrium
Introduction. The purpose of this short discussion is to provide a correct yet understandable introduction to thermodynamics. It is intended to replace and not complement the material in your text. The author is schooled in the Oberlin school of...
Chemistry-Study and teaching; Handouts; Thermodynamics; Second law of thermodynamics; Chemical equilibrium
Introduction: The First Law of Thermodynamics places important restraints on the path that can be taken by a system but it does not define the path. For example, the First Law does not rule out the possibility of warming oneself by sitting on a...
Chemistry-Study and teaching; Chemical bonds; Transition metals; Molecular orbitals
Introduction. The purpose of this handout is to provide a simple model for the bonding in transition-metal complexes as a framework for understanding and interpreting the most important properties of these complexes. We shall deal mostly with the...
Chemistry-Study and teaching; Homework; Problem solving; Molecules-Models; Chemical structure
Five multi-part problems dealing with molecular modeling. This exercise illustrates a range of modeling techniques used to determine the structure and function of macromolecules.
Chemistry-Study and teaching; Homework; Problem solving; Molecules-Models; Chemical structure
Four multi-part problems dealing with molecular modeling. The exercise illustrates a range of modeling techniques used to determine the structure and function of macromolecules.
An annotated bibliography for Chemistry 158a, separating information on helpful volumes into the categories of quantum mechanics, spectroscopy and mathematics.
Chemistry-Study and teaching; Handouts; Quantum theory; Eigenfunctions; Perturbation (Quantum dynamics)
Handout on perturbation theory in quantum mechanics written by the instructor as a supplement to the textbook. It looks at an approach for the case where a problem differs slightly from one that can be solved exactly.
Chemistry-Study and teaching; Handouts; Homework; Problem solving; Chemical bonds; Quantum theory; Molecular orbitals; Molecules-Models
Three multi-part questions with the goal of applying the theory of quantum mechanics and methods of molecular modeling to a diatomic molecule and the polyatomic molecule. It deals with molecular orbital theory and chemical bonding.
Chemistry-Study and teaching; Syllabi and course descriptions; Chemistry, Physical and theoretical
The syllabus for Chemistry 158a, quantum mechanics and statistical mechanics. It provides details on the textbook, grading system and topics that will be covered.
Chemistry-Study and teaching; Absorption spectra; Molecular spectroscopy; Thermodynamics; Statistical mechanics
Experiment involving an introduction to molecular spectroscopy and the extraction of molecular parameters and thermodynamic properties from an analysis of the vibrational fine structure of an electronic band spectrum of gaseous iodine.
Chemistry-Study and teaching; Problem solving; Statistics
Statistics exercise involving the method of least squares and regression analysis in dealing with the ultraviolet absorption spectrum of diatomic oxygen.
