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Diagrams families

Pb isotopes with Because there are so many variables in lead isotopic systems (since we are dealing time with three different decay schemes) it is not convenient to display the data on the same type of rime vs isotope ratio diagram as is used for Sr and Nd isotopes, and the Concordia diagram is a better choice. On this diagram families of concordia (growth) curves can be drawn for different ratios ( i values) (Figure... [Pg.248]

Patent databases are therefore integrated databases because facts, text, tables, graphics, and structures are combined. In patents that include chemical aspects (mostly synthesis or processing), the chemical compounds are often represented by Markush structures (see Chapter 2, Section 2.7.1). These generic structures cover many compound families in a very compact maimer. A Markush structure has a core structure diagram with specific atoms and with variable parts (R-groups), which are defined in a text caption. The retrieval of chemical compounds from Markush structures is a complicated task that is not yet solved completely satisfactorily. [Pg.269]

A diagram showing the interactions of selectins with their receptors. The selectin family of adhesion proteins. [Pg.283]

FIGURE 1.2 Schematic diagram of potential drag targets. Molecules can affect the function of numerous cellular components both in the cytosol and on the membrane surface. There are many families of receptors that traverse the cellular membrane and allow chemicals to communicate with the interior of the cell. [Pg.4]

It is essentially a phase diagram which consists of a family of isotherms that relate the equilibrium pressure of hydrogen to the H content of the metal. Initially the isotherm ascends steeply as hydrogen dissolves in the metal to form a solid solution, which by convention is designated as the a phase. At low concentrations the behaviour is ideal and the isotherm obeys Sievert s Law, i.e.,... [Pg.210]

G-protein-coupled Receptors. Figure 2 Diagram illustrating the binding sites for different families of hormones and neurotransmitters on their receptors. [Pg.561]

The recommended Mg-Au phase diagram is that of ref. 3 amended by the addition of several new compounds close to MgAu3 they are a family of close-packed structures modulated both by antiphase boundaries of the superstructure and by a... [Pg.439]

Figure 6. Expanded view of neutral stability diagram for System I with k = 0.865. Critical values for bifurcation of families of cells in a 2Xc sample size are marked. Figure 6. Expanded view of neutral stability diagram for System I with k = 0.865. Critical values for bifurcation of families of cells in a 2Xc sample size are marked.
Expanding the sample size to 2Xc admits the other shape families shown on Fig. 6 into the analysis and leads to additional codimension-two interactions between the shapes is the (1A<.)- family and shapes with other numbers of cells in the sample. The bifurcation diagram computed for this sample size with System I and k = 0.865 is shown as Fig. 11. The (lAc)- and (Ac/2)-families are exactly as computed in the smaller sample size, but the stability of the cell shapes is altered by perturbations that are admissible is the larger sample. The secondary bifurcation between the (lAc)- and (2Ae/3)-families is also a result of a codimension two interaction of these families at a slightly different wavelength. Two other secondary bifurcation points are located along the (lAc)-family and may be intersections with the (4Ac and (4A<./7) families, as is expected because of the nearly multiple eigenvalues for these families. [Pg.315]

On the left, in 3.1.1., are the two types of point defects which involve the lattice itself, while the others involve impurity atoms. Indeed, there do not seem to any more than these four, and indubitably, no others have been observed. Note that we are limiting our defect family to point defects in the lattice and are ignoring line and volume defects of the lattice. These four point defects, given above, are illustrated in the following diagram, given as 3.1.2. on the next page. [Pg.75]

Fig. 18. (a) Representation of the tumor hypoxic state (diagram adapted from Ref. (83a). Arrow direction indicates decrease in pC>2 (< 1 mmHg), achieved for tumor depths larger than 100 pm (b) proposed mechanism for redox-mediated retention of [Cu(ATSM)] in hypoxic cells (101-105). Note Contrary to common belief cell membrane crossing solely by direct diffusion is unlikely for compounds of this family is unlikely, as indicated by fluorescence imaging work on aromatic Zn(II) analogs (vide infra). Endocytosis is the more likely uptake mechanism (112-113). [Pg.153]

Figure 3.1 A QAP triangular diagram for the classification of quartz-bearing rocks, showing the fields of composition of the six major families of coarsegrained rocks and their fine-grained equivalents. (Redrawn from Hatch et al., 1972 Figure 76.)... Figure 3.1 A QAP triangular diagram for the classification of quartz-bearing rocks, showing the fields of composition of the six major families of coarsegrained rocks and their fine-grained equivalents. (Redrawn from Hatch et al., 1972 Figure 76.)...
Prediction of the properties of selected families of alloys Gschneidner s relations as an example. Stability maps and/or correlation diagrams... [Pg.310]

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See also in sourсe #XX -- [ Pg.453 ]



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Pole diagrams of two reactions in the same family

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