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; Handouts; Valence (Theoretical chemistry); Chemical bonds; Electrons; Molecular orbitals
In class, we have used the Valence Bond (VB) approach to understand chemical
bonding. At the qualitative level, VB is relatively easy to use and does not require a deep
knowledge of quantum mechanics and group theory. The electron-dot formalism of...
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; Outlines; Syllabi and course descriptions
Syllabus by Professor Steinmetz for a general chemistry course. Chemistry 1a is an introductory course in chemistry that is designed for two groups, those who wish a survey of molecular science and those who plan to concentrate in one of the...
Chemistry-Study and teaching; Atomic structure; Molecular structure; Examinations; Atomic orbitals; Questions and answers; Lewis dot structures; Chemical bonds
Questions and answers for the third midterm examination of Fall 1999, involving six multi-step problems covering atomic and molecular structure.
Chemistry-Study and teaching; Solution (Chemistry); Questions and answers; Stoichiometry; Solvents; Chemical reactions
Questions and answers for the first midterm examination of Fall 2002, involving five multi-step problems covering equilibrium and classes of reactions.
Chemistry-Study and teaching; Examinations; Transition metals; Solid state chemistry; Isomerism; Molecular structure; Molecular orbitals; Questions and answers
Questions and answers for the fourth midterm examination of Fall 2002, involving five multi-step problems covering transition metals and solid-state chemistry.
Handout explaining systematic and random errors, precision versus accuracy, significant figures, absolute and relative error, propagation of errors, measurement distribution, etc.
Chemistry-Study and teaching; Handouts; Solution (Chemistry); Volumetric Analysis
Experiment in which the objective is to apply the methods of volumetric analysis to the determination of the percentage of potassium hydrogen phthalate in a sample, the molecular weight and ionization constant of an unknown weak acid, and the...
Chemistry-Study and teaching; Handouts; Solution (Chemistry)
Experiment in which the objective is to separate, by gas chromatographic techniques, a mixture of the four isomeric butyl alcohols and to determine the percentage of each an unknown mixture.
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.
