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Very low interactions

PB arms. ° Unfortunately, the TEM images exhibited a two-phase system, hexagonally close-packed cylinders of PS in a PI matrix, leading to the conclusion that the two polydienes were completely mixed due to their very low / interaction parameter. The cylinders are in contrast to the lamellae expected for diblock copolymers, but it was analogous to the beha-vior of I2S and S2I miktoarm stars of the same composition. [Pg.95]

Even at concentrations which are still very low, interactions between these particles take place and result in a rapid rise of osmotic pressure and viscosity with concentration. It will be appropriate, therefore, to pass to the description of conditions at higher concentrations. [Pg.293]

The diamond carbon atoms or the H atoms on a diamond surface decreased the friction with the H-terminated Si(lll) surface due to the very low interaction of C(H) - H(on Si). [Pg.806]

Another mode of electron diffraction, low energy electron diffraction or FEED [13], uses incident beams of electrons with energies below about 100 eV, with corresponding wavelengths of the order of 1 A. Because of the very strong interactions between the incident electrons and tlie atoms in tlie crystal, there is very little penetration of the electron waves into the crystal, so that the diffraction pattern is detemiined entirely by the... [Pg.1367]

If we deal with a solution at very low concentrations, we can ignore the interactions between the particles and express the scattered intensity as... [Pg.1414]

The lower pressure sub-region is characterized by a considerable enhancement of the interaction potential (Chapter 1) and therefore of the enthalpy of adsorption consequently the pore becomes completely full at very low relative pressure (sometimes 0 01 or less), so that the isotherm rises steeply from the origin. This behaviour is observed with molecular sieve zeolites, the enhancement of the adsorption energy and the steepness of the isotherm being dependent on the nature of the adsorbent-adsorbate interaction and the polarizability of the adsorbate. -... [Pg.242]

Laser Doppler Velocimeters. Laser Doppler flow meters have been developed to measure Hquid or gas velocities in both open and closed conduits. Velocity is measured by detecting the frequency shift in the light scattered by natural or added contaminant particles in the flow. Operation is conceptually analogous to the Doppler ultrasonic meters. Laser Doppler meters can be appHed to very low flows and have the advantage of sensing at a distance, without mechanical contact or interaction. The technique has greatest appHcation in open-flow studies such as the deterrnination of engine exhaust velocities and ship wake characteristics. [Pg.67]

Many of the unusual properties of the perfluorinated inert fluids are the result of the extremely low intermolecular interactions. This is manifested in, for example, the very low surface tensions of the perfluorinated materials (on the order of 9-19 mN jm. = dyn/cm) at 25°C which enables these Hquids to wet any surface including polytetrafluoroethene. Their refractive indexes are lower than those of any other organic Hquids, as are theh acoustic velocities. They have isothermal compressibilities almost twice as high as water. Densities range from 1.7 to 1.9 g/cm (l )-... [Pg.297]

Below about 0.5 K, the interactions between He and He in the superfluid Hquid phase becomes very small, and in many ways the He component behaves as a mechanical vacuum to the diffusional motion of He atoms. If He is added to the normal phase or removed from the superfluid phase, equiHbrium is restored by the transfer of He from a concentrated phase to a dilute phase. The effective He density is thereby decreased producing a heat-absorbing expansion analogous to the evaporation of He. The He density in the superfluid phase, and hence its mass-transfer rate, is much greater than that in He vapor at these low temperatures. Thus, the pseudoevaporative cooling effect can be sustained at practical rates down to very low temperatures in heHum-dilution refrigerators (72). [Pg.9]

This reaction is one example of several possible radical transition-metal ion interactions. The significance of this and similar reactions is that radicals are destroyed and are no longer available for initiation of useful radical reactions. Consequentiy, the optimum use levels of transition metals are very low. Although the hydroperoxide decomposes quickly when excess transition metal is employed, the efficiency of radical generation is poor. [Pg.228]

Gas-flow counting is a method for detecting and quantitating radioisotopes on paper chromatography strips and thin-layer plates. Emissions are measured by interaction with an electrified wire in an inert gas atmosphere. AH isotopes are detectable however, tritium is detected at very low (- 1%) efficiency. [Pg.439]

The j3 -particles that are emitted in the j3 -decay mode are slowed down in the material around the source. When these reach very low velocities they interact with an ordinary electron and the pair is annihilated. The corresponding energy of 2 x E, or 1022 keV, is normally released in the form of two photons of 511 keV each, emitted in opposite directions. [Pg.456]

Dilute Polymer Solutions. The measurement of dilute solution viscosities of polymers is widely used for polymer characterization. Very low concentrations reduce intermolecular interactions and allow measurement of polymer—solvent interactions. These measurements ate usually made in capillary viscometers, some of which have provisions for direct dilution of the polymer solution. The key viscosity parameter for polymer characterization is the limiting viscosity number or intrinsic viscosity, [Tj]. It is calculated by extrapolation of the viscosity number (reduced viscosity) or the logarithmic viscosity number (inherent viscosity) to zero concentration. [Pg.170]

The term endocrine disrupter (ED) has tended to be used for those chemicals which act specifically at the level of the hormone receptor present in the target cells of various organs. Such chemicals may either mimic the action of the natural hormone (agonistic activity) or are sufficiently similar in molecular shape to the naturally produced hormone to interfere with the interaction between the hormone and receptor, thus blocking or impeding the activation of the receptor (antagonsitic activity). Such effects may occur at very low concentrations (as with the endogenous hormone), compared with the concentrations normally required to elicit the more traditional toxic effects attributed to chemicals. Recently,... [Pg.61]

In the analogous RBS analysis, da/dil is given precisely and analytically by the Rutherford scattering formula. Unfortunately, the case of ( He, H) scattering is not quite so simple. While the processes are indeed elastic, their cross sections are dominated by nuclear interaction components except at very low energies. (The H(%e, iH)%e cross section approaches the Rutherford value for energies below 0.8 MeV.)... [Pg.494]

In a force-displacement curve, the tip and sample surfaces are brought close to one another, and interact via an attractive potential. This potential is governed by intermolecular and surface forces [18] and contains both attractive and repulsive terms. How well the shape of the measured force-displacement curve reproduces the true potential depends largely on the cantilever spring constant and tip radius. If the spring constant is very low (typical), the tip will experience a mechanical instability when the interaction force gradient (dF/dD) exceeds the... [Pg.195]

Due to the very low volumetric concentration of the dispersed particles involved in the fluid flow for most cyclones, the presence of the particles does not have a significant effect on the fluid flow itself. In these circumstances, the fluid and the particle flows may be considered separately in the numerical simulation. A common approach is to first solve the fluid flow equations without considering the presence of particles, and then simulate the particle flow based on the solution of the fluid flow to compute the drag and other interactive forces that act on the particles. [Pg.1208]


See other pages where Very low interactions is mentioned: [Pg.304]    [Pg.19]    [Pg.74]    [Pg.109]    [Pg.398]    [Pg.146]    [Pg.707]    [Pg.548]    [Pg.120]    [Pg.263]    [Pg.799]    [Pg.304]    [Pg.19]    [Pg.74]    [Pg.109]    [Pg.398]    [Pg.146]    [Pg.707]    [Pg.548]    [Pg.120]    [Pg.263]    [Pg.799]    [Pg.571]    [Pg.2447]    [Pg.2582]    [Pg.134]    [Pg.298]    [Pg.136]    [Pg.342]    [Pg.133]    [Pg.415]    [Pg.206]    [Pg.522]    [Pg.531]    [Pg.49]    [Pg.27]    [Pg.57]    [Pg.241]    [Pg.630]    [Pg.67]    [Pg.72]    [Pg.542]    [Pg.550]    [Pg.700]   
See also in sourсe #XX -- [ Pg.548 ]




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