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Normalization coincidence

In some cases the various rooms of a building do not all require heating at the same time of day and here a so-called selective system may be used. The supply of heat is restricted to different parts of the building at different times of the day the whole building cannot be heated at one time. A typical application is in dwellings where the demands for heat in living spaces and bedrooms do not normally coincide. [Pg.406]

Alongside the radical distinction of the mechanism of this process from that of chain polymerization, linear polycondensation features a number of specific peculiarities. So, for instance, the theory of copolycondensation does not deal with the problem of the calculation of a copolymer composition which normally coincides with the initial monomer mixture composition. Conversely, unlike chain polymerization, of particular importance for the products of polycondensation processes with the participation of asymmetric monomers is structural isomerism, so that the fractions of the head-to-head and head-to-tail patterns of ar-... [Pg.187]

The electron cloud of an ion subjected to an electric field undergoes deformations that may be translated into displacement of the baricenters of negative charges from the positions held in the absence of external perturbation, which are normally coincident with the centers of nuclear charges (positive). The noncoincidence of the two centers causes a dipole moment, determined by the product of the displaced charge (Z ) and the displacement d. The displacement is also proportional to the intensity of the electrical field (F). The proportionality factor (a) is known as ionic polarizability ... [Pg.36]

The melting point of the film does not normally coincide, as in this example, with the point at which the line becomes curved. The beginning of curvature of the line may be regarded as corresponding to a process of two-dimensional evaporation, for if the straight parts of the curve resemble the compression curves of solids and liquids, the curved portions resemble those for a gas near its critical point. [Pg.70]

There are cases where strong normalizer and normalizer coincide. Let P be a thin subset of S, and let Q be a nonempty subset of S. Then we obviously have KP(Q) = NP(Q). [Pg.34]

Next, intermolecular potential functions are developed to describe the interactions between the reacting system and a solvent molecule. For aqueous solutions, the potential functions are based on numerous ab initio calculations for complexes of the substrate and a water molecule. The potentials vary with Tj and are represented in our work through Coulomb and Lennard-Jones interactions between sites normally coincident with the atoms. [Pg.472]

The second requirement arises from the need to preserve focusing conditions, as shown in Fig. 16-7. In (a) the specimen is equally inclined to the incident and diffracted beams tj/ is zero and the specimen normal coincides with the reflecting-... [Pg.457]

See Figure 6.15. (Notice that the tangent points and the minimum do not normally coincide.) The relative amounts of the two phases is determined by the lever rule (eqn 6.7). [Pg.112]

On and the user program coordinate system Cp which normally coincides with Ci This transformation converts the Cartesian coordinates expressed in to Pp expressed in Cp (Lien 1979) ... [Pg.1073]

Normal coincidence counting techniques rely on the detection of two coincident neutrons (doubles) and making an assumption based either on the multiplication or on the (a, n) neutron rate. These two analysis methods - passive calibration and known-alpha - require... [Pg.2921]

TABLE 4.4 Mass Spectral Typing of Dengue-1 against all other Flavivimses by C, the Normalized Coincidence (Equation 4.7)... [Pg.100]

TABLE 43 Mass Spectral Typing of Dengue-4 with Dengue-Specific Primers (from Drosten et al. [92]) by C , the Normalized Coincidence... [Pg.101]

Figure 11. Normalized coincidence rate as a function of the relative orientation of the transmission axes of the polarizers in the experiment of Aspect, Grangier, and Roger. The solid curve represents the quantum mechanical prediction. Figure 11. Normalized coincidence rate as a function of the relative orientation of the transmission axes of the polarizers in the experiment of Aspect, Grangier, and Roger. The solid curve represents the quantum mechanical prediction.
Fig. 12. Experiment with one channel polarizers Normalized coincidence rate as a function of the relative polarizers orientation. Indicated errors are 1 standard deviation. The solid curve is not a fit to the data but the prediction by Quantum Mechanics. Fig. 12. Experiment with one channel polarizers Normalized coincidence rate as a function of the relative polarizers orientation. Indicated errors are 1 standard deviation. The solid curve is not a fit to the data but the prediction by Quantum Mechanics.
See other pages where Normalization coincidence is mentioned: [Pg.140]    [Pg.430]    [Pg.481]    [Pg.106]    [Pg.430]    [Pg.17]    [Pg.112]    [Pg.450]    [Pg.117]    [Pg.500]    [Pg.7]    [Pg.246]    [Pg.154]   
See also in sourсe #XX -- [ Pg.81 ]



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Coincidence

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