✍ Scribed by G. Black; R.L. Sharpless; T.G. Slanger
No coin nor oath required. For personal study only.
📜 SIMILAR VOLUMES
The quenching re.ac!ions 01 memsmble niwogcn molecuks I$(A%. u = 0. I. 2) by 02 has been sludisd in a rrmperamrscontrolled flowing afterglow experimenl. The rexlion tale constants at 300 K are 2.5 X IO-"\_ 4.0X IO-" and 4.5 X lo-" c&/s molecule for u = 0. 1 and 2, respectively. They vary as Z"' m th
The charge transfer reaction of He+ with N20 produces vibrationally excited N:(X) ions. The relaxation processes occurring after formation of the NC (X, u" ) ions have been investigated. Charge transfer with N,O is the main relaxation mechanism and its rate does not vary much with the internal energ
Infrared emission (Au --2) has been observed from NO (u = 2-7) produced by the reaction N&3 f @ + NO(v) + 0. The apparent NO vibrational energy distribution is different from the distribution initially produced by the reaction owing to stepwise V-V quenching of NO(u) by collision with 02. A time-to
Branching fractions are determined for the product NO (A 'X+, u= 0,l) and NO( B 'II, v= 0) emissions as a function of v' in the energy transfer reaction N,(A 'Z:, v') tNO(X 211n v"=O) in a rapidly pumped discharge-flow reactor operated at a total 2 pressure of TC 2 Torr at % 295 K. Using the NO( A Z