Big Chemical Encyclopedia

Chemical substances, components, reactions, process design ...

Articles Figures Tables About

Velocity media

P. L. Edwards, Ultrasonic Signal Distortion and its Effects on Velocity Measurements in Dispersive Constant-Group-Velocity Media , J. Acoust. Soc. Am. 1983, 73, 1608. [Pg.228]

The Moho discontinuity was first identified in 1909 by the pioneering Croatian seismologist Andrija Mohorovicic. He found that seismograms from earthquakes with shallow focal depths showed two sets of P-waves and S-waves. One followed a direct path near the Earth s surface. The other was refracted by a high velocity medium. The P-wave velocity has a high increase from 7 km/s to 8 km/s while the S-wave velocity has a small increase from... [Pg.45]

To evaluate the effect of slurries or moving liquids on corrosion, a special test loop may build through which the solid-contairring medium or high velocity medium is circulated by means of a pump. Tubular specimens are relatively easy to obtain. They may be exposed in the velocity test loop, and have a nice response to erosion corrosion calculatiorrs. [Pg.789]

Linear Transfer Function High velocities Medium velocities Low velocities... [Pg.66]

In situations where a low concentration of suspended solids needs to be separated from a liquid, then cross-flow filtration can be used. The most common design uses a porous tube. The suspension is passed through the tube at high velocity and is concentrated as the liquid flows through the porous medium. The turbulent flow prevents the formation of a filter cake, and the solids are removed as a more concentrated slurry. [Pg.74]

Detonation. In a detonation, the flame front travels as a shock wave, followed closely by a combustion wave, which releases the energy to sustain the shock wave. The detonation front travels with a velocity greater than the speed of sound in the unreacted medium. [Pg.258]

Restoring of SD of parameters of stress field is based on the effect of acoustoelasticity. Its fundamental problem is determination of relationship between US wave parameters and components of stresses. To use in practice acoustoelasticity for SDS diagnosing, it is designed matrix theory [Bobrenco, 1991]. For the description of the elastic waves spreading in the medium it uses matrices of velocity v of US waves spreading, absolute A and relative... [Pg.250]

We used the concept of sound velocity dispersion for explanation of the shift of pulse energy spectrum maximum, transmitted through the medium, and correlation of the shift value with function of medium heterogeneity. This approach gives the possibility of mathematical simulation of the influence of both medium parameters and ultrasonic field parameters on the nature of acoustic waves propagation in a given medium. [Pg.734]

The Champ-Sons model has been developed to quantitatively predict the field radiated by water- or solid wedge- eoupled transdueers into solids. It is required to deal with interfaces of complex geometry, arbitrary transducers and arbitrary excitation pulses. It aims at computing the time-dependent waveform of various acoustical quantities (displacement, velocity, traction, velocity potential) radiated at a (possibly large) number of field-points inside a solid medium. [Pg.736]

The friction coefficient determines the strength of the viscous drag felt by atoms as they move through the medium its magnitude is related to the diffusion coefficient, D, through the relation Y= kgT/mD. Because the value of y is related to the rate of decay of velocity correlations in the medium, its numerical value determines the relative importance of the systematic dynamic and stochastic elements of the Langevin equation. At low values of the friction coefficient, the dynamical aspects dominate and Newtonian mechanics is recovered as y —> 0. At high values of y, the random collisions dominate and the motion is diffusion-like. [Pg.94]

The velocity with which a solute moves through the conductive medium due to its electrophoretic mobility (Vep). [Pg.598]

Since the radial acceleration functions simply as an amplified gravitational acceleration, the particles settle toward the bottom -that is, toward the circumference of the rotor-if the particle density is greater than that of the supporting medium. A distance r from the axis of rotation, the radial acceleration is given by co r, where co is the angular velocity in radians per second. The midpoint of an ultracentrifuge cell is typically about 6.5 cm from the axis of rotation, so at 10,000, 20,000, and 40,000 rpm, respectively, the accelerations are 7.13 X 10, 2.85 X 10 , and 1.14 X 10 m sec" or 7.27 X 10, 2.91 X 10, and 1.16 X 10 times the acceleration of gravity (g s). [Pg.635]

Identification of a molecule known in the laboratory is usually unambiguous because of the uniqueness of the highly precise transition frequencies. However, before frequencies detected in the interstellar medium can be compared with laboratory frequencies they must be corrected for the Doppler effect (see Section 2.3.2) due to the motion of the clouds. In Sagittarius B2 the molecules are found to be travelling fairly uniformly with a velocity of... [Pg.120]

The 2eta potential (Fig. 8) is essentially the potential that can be measured at the surface of shear that forms if the sohd was to be moved relative to the surrounding ionic medium. Techniques for the measurement of the 2eta potentials of particles of various si2es are collectively known as electrokinetic potential measurement methods and include microelectrophoresis, streaming potential, sedimentation potential, and electro osmosis (19). A numerical value for 2eta potential from microelectrophoresis can be obtained to a first approximation from equation 2, where Tf = viscosity of the liquid, e = dielectric constant of the medium within the electrical double layer, = electrophoretic velocity, and E = electric field. [Pg.44]

Equipment. Food freezing equipment can be classified by the method and medium of heat transfer used. High velocity air is the most... [Pg.459]

Free-Electron Lasers. The free-electron laser (EEL) directly converts the kinetic energy of a relativistic electron beam into light (45,46). Relativistic electron beams have velocities that approach the speed of light. The active medium is a beam of free electrons. The EEL, a specialized device having probably limited appHcations, is a novel type of laser with high tunabiHty and potentially high power and efficiency. [Pg.11]

The types of explosives that have been used include both high (4500—7600 m/s) and low to medium (1500—4500 m/s) velocity matetials (24,26). [Pg.148]


See other pages where Velocity media is mentioned: [Pg.341]    [Pg.372]    [Pg.190]    [Pg.219]    [Pg.135]    [Pg.744]    [Pg.68]    [Pg.546]    [Pg.183]    [Pg.446]    [Pg.570]    [Pg.1267]    [Pg.1886]    [Pg.1973]    [Pg.3066]    [Pg.94]    [Pg.76]    [Pg.727]    [Pg.727]    [Pg.369]    [Pg.772]    [Pg.131]    [Pg.587]    [Pg.665]    [Pg.9]    [Pg.409]    [Pg.411]    [Pg.412]    [Pg.49]    [Pg.460]    [Pg.68]    [Pg.148]    [Pg.150]    [Pg.329]    [Pg.355]    [Pg.398]   
See also in sourсe #XX -- [ Pg.247 ]




SEARCH



© 2024 chempedia.info