Now showing items 101-110 of 183
Some Exact Solutions of the Navier‐Stokes and the Hydromagnetic Equations
(The American Institute of Physics, 1959-03)
Some exact, closed‐form solutions of the Navier‐Stokes equations for incompressible flow and of the hydromagnetic equations for high‐conductivity, incompressible flow are presented. They can be considered to be generalizations ...
Note on Diffusive Separation of Gas Mixtures in Flow Fields
(The American Institute of Physics, 1958-08)
This paper discusses the effect of pressure‐diffusion flux upon the concentration distribution of gas mixtures in flow fields. The equation of concentration is formulated for a binary gas mixture in which the mass ratio ...
A High Speed Product Integrator
(The American Institute of Physics, 1953-03)
A method of employing the components of a high speed analog computer to evaluate product integrals is presented. Kernel functions of two variables are obtained with time as the variable of integration and the position of ...
A Low‐Frequency Oscillator
(The American Institute of Physics, 1953-10)
A low‐frequency simple‐harmonic oscillator, employing a relatively new method of approach, is described. An electronic analog computer of the differential analyzer type is used to solve the differential equation of a ...
Phenomenological theory of anisotropic isothermal galvanomagnetic effects,
(Elsevier, 1958-08)
The isothermal galvanomagnetic tensor components associated with the Hall effect and the magnetoresistance effect are analyzed for arbitrary orientation of the crystal axes in the sample, arbitrary orientation of the ...
Suction of the Boundary‐Layer Flow along a Hot Plate as a Means of Separating Gas Mixtures
(The American Institute of Physics, 1958-10)
Effect of Magnetic Field on Coupled Helix Attenuators
(The American Institute of Physics, 1957-11)
A High Precision Electron‐Diffraction Unit for Gases
(The American Institute of Physics, 1954-06)
An electron‐diffraction unit incorporating a rotating sector has been developed which makes possible the accurate and objective measurement of the intensity of electrons diffracted by free atoms and molecules. The diffraction ...
Stagnation Point Fluctuations on a Body of Revolution
(The American Institute of Physics, 1959-11)
Structures of CF3Cl and CH3Cl
(The American Institute of Physics, 1955-10)
The molecular structures of CF3Cl and CH3Cl were determined by refined procedures of electron diffraction. For CF3Cl, the most probable C☒F and C☒Cl distances are 1.328 A and 1.751 A respectively and ∠FCF=108.6°. Results ...