Physical chemistry : developing a dynamic curriculum

The goal of this new book is to provide lecturers with material that they can use to modernize their lectures and laboratory courses. The first four chapters present broadly organized essays on the content and presentation of various topics (e.g., computational chemistry, state to state dynamics, atmospheric chemistry, and surface science) and give descriptions of tested modem experiments that are now in use at a variety of institutions across the USA. Also covered are laser experiments, experiments with fluorescence probes, polymer experiments, experiments on thermodynamics, as well as new approaches for classical topics such as Huckel molecular orbitals, measurement of the photoelectric field, and NMR relaxation times.

• Part 1 Today's physical chemistry classroom: computational chemistry in the physical chemistry laboratory - ab initio molecular orbital calculations, Franklin B. Brown
• state-to-state dynamics, Richard W. Schwenz
• atmospheric chemistry, Don Stedman
• aspects of surface science for emphasis in the physical chemistry curriculum, A.W. Czanderna. Part 2 Why modernise the laboratory?: a consortium-based approach to laboratory modernization - the Pew physical chemistry project, Colin F. MacKay. Part 3 Laser experiments: a hands-on helium-neon user for teaching the principles of laser operation, William F. Polik
• basic laser spectroscopy for the physical chemistry laboratory, Jack K. Steehier
• three applications of a nitrogen-user-pumped dye laser in the undergraduate laboratory - from spectroscopy to photochemistry, Julio C. de Paula et al
• flash photolysis of benzophenone, Patrick L. Holt
• laser photo-oxidative chemistry of quadricyclane, Joseph J. BetBruno
• multiphoton ionization spectroscopy of cesium atoms, Charles S. Feigerle and Robert N. Compton
• picosecond user spectroscopy, Weining Wang et al
• experiments in user Raman spectroscopy for the physical chemistry laboratory, Robert J. Moore et al. Part 4 Laser experiments in thermodynamics: time-resolved thermal lens calorimetry with a helium-neon laser, J.E. Salcido et al
• determination of thermodynamic excess functions by combination of several techniques including laser Light scattering, Gerald R. Van Hecke. Part 5 Fluorescence probes: fluorescence probes of b-cyclodextrin inclusion complexes, Virginia M. Indivero and Thomas A. Stephenson
• measurements of fluorescence intensity and Lifetime, Lee K. Fraiji et al. Part 6 A new look at classical topics: Huckel molecular orbitals, Richard S. Moog
• measurement of the photoelectric effect, Andrew Loomis and Richard W. Schwenz
• high-resolution vibration-rotation spectra of deuterated acetylenes, J.I. Steinfeld and Keith A. Nelson
• NMR relaxation times, Kathryn R. Williams and Roy W. King. Part 7 Polymer experiments: polymers in the physical chemistry laboratory - an integrated experimental programme, Donald A. Tarr et al
• determination of polymer molecular weight in an aqueous-based solvent system by gel permeation chromatography, Susan Mathison et al
• thermodynamic properties of elastomers, Kathryn R. Williams. Part 8 Incorporating modern instrumentation: oxygen binding to haemoglobin, Betty J. Gaffney and Paul J. Dagdigian
• mass spectrometer or mass selective detector used to study gas-phase reactions, Colin F. MacKay
• an introductory experiment in cyclic voltammetry.