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; Spectroscopy, Nuclear magnetic resonance;
Experiment designed to introduce the fundamental principles and practice of magnetic resonance imaging (MRI), a form of NMR spectroscopy, by obtaining and examining a two-dimensional image of the stem or bud from a plant.
Chemistry-Study and teaching; Handouts; Molecules; Conformational analysis
Description of how to use the software involved in many of the exercises for Chemistry 164, focusing on answers to frequently asked questions on how to search for conformers in the program Spartan along with a help file from Wavefunction.
Chemistry-Study and teaching; Homework; Molecular structure; Molecules-Models; Conformational analysis; Isomerism
This is the Molecular Zoo entry for ethylene ozonide and therefore describes the detailed three-dimensional, gas-phase structure of ethylene ozonide produced by instrumental and computational methods. It also offers a critical comparison of these...
Chemistry-Study and teaching; Molecular spectroscopy; Thermodynamics; Gases
Experiment previously used in the course, meant to introduce the student to molecular spectroscopy and to the molecular parameters and thermodynamic properties which can be obtained by analyzing the vibration-rotation spectrum of gaseous hydrogen...
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; Molecular rotation; Spectroscopy, Nuclear magnetic resonance; Chemical kinetics
Experiment involving learning how kinetic information can be obtained from an NMR line shape and determining the activation parameters for internal rotation of the N,N-dimethylamino group in N,N-dimethylacetamide.