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Transitioning completing

In methanol (100%) starting from a chain length of n = 5 tripeptide units, complete transition curves could be measured (Fig. 30). [Pg.183]

It should be mentioned that one can detect two types of equilibrium in the model of charge transfer in the absorbate - adsorbent system (i) complete transition of chemisorbed particles into the charged form and (ii) flattening of Fermi level of adsorbent and energy level of chemisorbed particles. The former type takes place in the case of substantially low concentration of adsorbed particles characterized by high affinity to electron compared to the work function of semiconductor (for acceptor adsorbates) or small value of ionization potential (for donor adsorbates). The latter type can take place for sufficiently large concentration of chemisorbed particles. [Pg.27]

In this case the bending is caused by complete transition of chemisorbed particles into the charged form. In case when Nfji > [Pg.34]

Substitution with R=methyl or ethyl yielded solvent-free compounds, which appeared to be in the low spin state (neff=ca. 2.12 B.M. over the temperature range 78-320 K) [119]. However, the phenyl derivative shows an abrupt and almost complete transition, but now centred near room temperature (T1/2T=299 K and T1/2 =290 K) [119]. [Pg.296]

The resulting fastest-switching waveforms, given by Eqs. (10) and (13) and shown in Fig. 13, allow us to characterize the magnet-power supply system from the point of view of switching rates and times. In particular, they lead to the following expression for the minimum switching-up time mSwt for a complete transition from 0 to Imax-... [Pg.425]

In the annnino-platinous compounds there is, as in the other amniino-metallic compounds, a complete transition series from tetrammino-platinous salt to tetra-acido-platinous salt for example, tetrammino-platinous chloride, [Pt(NH3)JC12, chloro-triammino-platinous chloride, [Pt(NH3)3Cl]Cl, dichloro-diammino-platinum, [Pt(NH3)2Cl2], trichloro-ammino-platinous salt, [Pt(NH3)Cl3]K, and potassium chloropiatinite, [PtCl6]K2, where all the ammonia is replaced by chlorine. Comparing the molecular conductivities, the first-mentioned compound has conductivity at 1000 litres dilution of 260, the next 115-8 in the third compound the conductivity drops almost to zero, the fourth has conductivity of 106-8, and the last salt has conductivity of 267.2... [Pg.234]

Since it goes without saying that Arrow s conclusions concerning the existence of a process leading to a complete, transitive ordering would hold good if the familiar (I/, P, /, D) conditions were accepted, our question becomes Do the (/, P, /, D conditions have meaningful application to the case of the multi-aspect person, and, if not. why not ... [Pg.207]

The theoretical derivation of equations for equilibrium and pH is presented in [1]. Here, some more general observations shall be discussed. In the transition from the acidic to the alkaline form (and vice versa), a point occurs where In A and InB are present in comparable numbers. The consequence is a mixed color at this point. Important for the practical application is that the complete transition requires a certain pH range. Therefore a pH indicator does not change its color at a sharp pH value but within a range. [Pg.527]

Hereafter, we use complete to mean this kind of near-complete transition. It was found in our calculation that the condition related to a is easily satisfied, because the transition dipole moment /j, only weakly depends on the nuclear coordinates in many systems. The crucial limitation arises from the variation of / through the coordinate dependence of the potential difference A(x). If A(x) can be approximated by a linear function of x within the range of the wavepacket, the range of the parameter j3 can be roughly estimated as... [Pg.103]

As discussed previously for the DPSC technique, a variation in t of at least a factor of 130 is required for a complete transition from the KP to the DP zone through the KI zone. In practice, this is accomplished only if at least two different-sized UMEs are used. [Pg.535]

Above the critical concentration v the solution becomes metastable and separates into two phases — isotropic and anisotropic. The condition of thermodynamic equilibrium of the two phases corresponds to the equality of the chemical potentials of each of the components in each of the coexisting phases. The concentration corresponding to a complete transition to the anisotropic state, v, is 1.56 times as high as vf (see also... [Pg.83]

The stepwise character demonstrated in this profile is characteristic of a substance capable of forming a hydrate. At humidities below 60% RH, the moisture content of the solid remains virtually unchanged. When the activity of water reaches a critical relative humidity of 60%, water is sorbed by the solid as the anhydrous form converts to the monohydrate. For this example, the moisture content associated with the complete transition to the monohydrate is 10% (e.g., 1 mole of water = 18g 1 mole of the substance = 180g). [Pg.2369]

The isomorphism between and 4 provides a simple illustration to become familiar with the formal description of permutational groups. A permutational operation on four elements can be characterized as a sequence of cyclic permutations, e.g. a threefold axis running through atom 1 will map 1 onto itself and produce a cyclic permutation of the remaining three atoms. It is therefore denoted as (3,1). All threefold elements have the same cycle structure and in view of the complete transitivity of the set thus must belong to the same symmetry classes. In this way the elements of T4 can easily be identified as 4 operators, as shown in Table 1. The irreps themselves are also denoted as partitions of n, indicated between patentheses. Pictorially these partitions may be denoted by Young tableaux, as also indicated in the character table. [Pg.33]

Properties y-structure below 800°C, partial transition to a at 1000°C, and complete transition at >1200°C [1078], lattice spacing data [1077] and specihc surface area available [1078]. [Pg.158]

Partially reduced 2-quinolinethiones 186 exist in the solid state in the both tautomeric forms shown. Complete transition from 186a to 186b occurs in acetone, DMSO and trifluoroacetic acid (90ZOR1578). [Pg.82]


See other pages where Transitioning completing is mentioned: [Pg.474]    [Pg.92]    [Pg.518]    [Pg.186]    [Pg.58]    [Pg.93]    [Pg.306]    [Pg.315]    [Pg.125]    [Pg.107]    [Pg.197]    [Pg.198]    [Pg.207]    [Pg.209]    [Pg.222]    [Pg.225]    [Pg.226]    [Pg.228]    [Pg.202]    [Pg.426]    [Pg.200]    [Pg.423]    [Pg.423]    [Pg.256]    [Pg.125]    [Pg.44]    [Pg.246]    [Pg.136]    [Pg.205]    [Pg.104]    [Pg.40]    [Pg.300]    [Pg.192]    [Pg.279]    [Pg.281]   
See also in sourсe #XX -- [ Pg.39 ]




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