Part 1: vibrational effects on rotational energy transfer and vice versa, Jeffrey I. Steinfeld; collision-induced intramolecular state-to-state vibrational energy transfer in small polyatomic molecules - the role of perturbations, Briars J. Orr; collisional energy transfer from hot atoms to small molecules, Ralph E. Weston, Jr. and George W. Flynn; collisional energy transfer of molecules with chemically significant amounts of vibrational energy, X. Yang et al; quantum calculations on vibrational energy transfer in molecular collisions, D.C. Clary and G.J. Kores. Part 2 Energy transfer from large molecules in reactive systems: studies of collisional energy transfer using pressure-dependent very low-pressure pyrolysis (VLPP), Keith D. King; association, dissociation and isomerization reactions - the interplay of microcranonical reaction and energy transfer, Michael J. Pilling et al; collisional energy transfer in unimolecular reactions; statistical theory and classical simulation, Sture Nordholm and Harold W. Schranz. Part 3 Energy transfer from large molecules in non-reactive systems: supercollisions, I. Oref; the application of time resolved optoacoustics to the vibrational relaxation of highly excited molecules, Kenneth M. Beck et al; vibrational energy loss from triplet state polyatomics, Bruce R. Weisman; glimpses of a mechanism for quenching unimolecular reactions - a quantum state resolved picture, George W. Flynn and Ralph E. Weston, Jr.; vibrational deactivation of large molecules by collisions and by spontaneous infrared emission, John R. Barker et al; bulk energy transfer in simple reactive and non-reactive systems, Wendell Frost; mechanisms and models for collisional energy transfer in highly excited molecules, Robert G. Gilbert; classical trajectory methods for studying energy transfer from highly vibrationally excited molecules, Gyorgy Lendvay and George C. Schatz.