Now showing items 11-20 of 57
Flow Field of a Bunsen Flame according to Source Sheet Approximation
(The American Institute of Physics, 1965-09)
A volume source sheet plus a uniform flow is used to represent the flow field of a two‐dimensional Bunsen flame when the density ratio of the unburned to burned gases is 5.5. The unknown flame shape is determined by the ...
``Floating Wire'' Technique for Testing Magnetic Lenses
(The American Institute of Physics, 1965-02)
Improvements in the well‐known technique of using a current‐carrying wire to simulate particle trajectories in a magnetic field are described. As presently used, the parameters of magnetic lenses can be determined for a ...
Empirical Correlations among Monohydride Bond Lengths
(The American Institute of Physics, 1965-06-15)
Spin forbidden bands in Cr III hexamine
(Elsevier, 1965-09)
A large deuterium isotope effect has been found in the spin forbidden bands of the chromium III hexamine complex. The significance of this is discussed.
Unsteady Boundary Layers on Vibrating Spheres in a Uniform Stream
(The American Institute of Physics, 1965-05)
The influence of radial vibrations on forced convection from a sphere placed in a uniform stream of an incompressible fluid is studied mathematically. Consideration is given to first‐order perturbations of the harmonic ...
Atomic‐Beam Scattering Studies on the Li☒Hg System: Quantum Effects and Velocity Dependence of the Cross Sections
(The American Institute of Physics, 1965-04-01)
Measurements of the velocity dependence of the angular intensity distribution of 6Li and 7Li beams scattered by a crossed Hg beam are reported. The Li beams were velocity selected, the Hg beam Maxwellian. Angular intensity ...
Hall Effect in Photoconducting Mercuric Sulfide
(The American Institute of Physics, 1965-05)
Quantum Chemistry of Electrode Processes. I. General Relations for Electron Exchange between Electrode and Electroactive Species under Equilibrium and Nonequilibrium Conditions
(The American Institute of Physics, 1965-11-01)
It is assumed in this paper that at the electrode—solution interface there is molecular order of the electroactive species resembling solid‐state order. Specifically, it is assumed that next to the electrode is a layer of ...