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One circle

Fig. 8. Diffraction space according to the "disordered stacking model" (a) achiral (zigzag) tube (b) chiral tube. The parallel circles represent the inner rims of diffuse coronae, generated by streaked reflexions. The oo.l nodes generate sharp circles. In (a) two symmetry related 10.0 type nodes generate one circle. In the chiral case (b) each node generates a separate corona [9]. Fig. 8. Diffraction space according to the "disordered stacking model" (a) achiral (zigzag) tube (b) chiral tube. The parallel circles represent the inner rims of diffuse coronae, generated by streaked reflexions. The oo.l nodes generate sharp circles. In (a) two symmetry related 10.0 type nodes generate one circle. In the chiral case (b) each node generates a separate corona [9].
Osprey http //biodata.mshri.on.ca/osprey/servlet/Index Network building software. One Circle, Concentric, Dual Ring, Spokes, Spoked Dual Ring 102... [Pg.144]

FIGURE 20.2. This matrix illustrates the relationship between the phases of development and types of study by objective that may he conducted during each clinical development of a new medicinal product. The shaded circles show the types of the study most usually conducted in a certain phase of development the open circles show certain types of study that may he conducted in that phase of development hut are less usual. Each circle represents an individual study. To illustrate the development of a single study, one circle is joined by a dotted line to an inset column that depicts the elements and sequence of an individual study. [Pg.780]

The answers to the previous six questions are yes, yes, no, 100 percent, zero, and zero (for all parts of question 6). To help understand these answers, consider the act of stuffing rigid circular regions of a plane into a sphere. If the circular discs are really two-dimensional, they have no thickness or volume. Therefore, in theory, you could fit an infinite number of these circles into a sphere—provided that the sphere s radius is slightly bigger than the circle s radius. If the sphere s radius were smaller, even one circle could not fit within the enclosed volume since it would poke out of the volume. Therefore, in answer to question 1, the volume of a whale could reside comfortably in a 24-D sphere with a radius of 2 inches. In fact, an infinite number of whale volumes could fit in a 24-D sphere. Likewise, in answer to question 2, a 1000-D sphere with a radius of 2 inches could contain a volume equivalent to that of a whale. However, you could not physically stuff a whale into either of these spheres because the whale has a minimum length that will not permit it to fit. (Con-... [Pg.113]

Find an easy question. Skim over the test until you find an easy question, and answer it. Getting even one circle filled in gets you into the testtaking groove. [Pg.43]

We can reconcile the spherical picture with Figure 10.4(a) by noting that while the labeled points each refer to exactly one state of the qubit, each of the unlabeled points corresponds to a whole circle s worth of states, one circle of constant latitude on the sphere P(C ). [Pg.309]

Cut one circle of polyester mesh so that it is slightly smaller than the Whatman no. 50 filter paper. [Pg.316]

So, we have a competition of two factors. In general, resonance will beat induction, so we can say that the negative charge on the left is more stable. Therefore, the more acidic proton is the one circled here ... [Pg.69]

A graph circle is a final sequence of the edges in which no node except the starting point occurs twice. A graph for the isomerization reaction has one circle, whereas that for vinyl chloride synthesis contains two circles. Every route of a chemical reaction corresponds to a graph s circle and vice versa. The number of independent reaction routes is equal to the number of elements in the basis of circles. It permits us to determine independent reaction routes from the graph type. [Pg.26]

The formula units He and F2 represent single atoms and diatomic molecules, respectively. Unlike the F2 molecule, in which one fluorine atom is bonded to a specific other fluorine atom, in the ionic compound NaCl, one Na ion is bonded to six Cl ions that are adjacent to it. Each of the Cl ions is bonded to six Na ions that are adjacent to it. (The fifth and sixth ions are in layers in front of and behind the layer shown here see Figure 5.9.) The ratio of Na" ions to CF ions is therefore 1 1. Any pair ofNa+ andCr ions, such as those circled in red or the one circled in green, is a formula unit. [Pg.146]

A six-membered ring with a circle is often used to indicate an aromatic system, and this will be used from time to time. Kekule stmctures, those having the C=C units rather than a circle, are used most often in this book. Note that one circle can be used for benzene, but it would be misleading to use two circles for naphthalene, for example, because that would imply 12 aromatic electrons, although naphthalene has only 10. ... [Pg.61]

Next, we will draw one circle for each orbital. Remember from the last lesson that s sublevels contain 1 orbital (as shown in Figure 3-4e on page 89), p sublevels contain 3, and the d and f sublevels hold 5 and 7 orbitals, respectively. [Pg.96]

Aside from the ability to relax (or supercoii) DNA in steps of either 1 or 2, other criteria have been used to distinguish type I and type II enzymes. One useful criterion is the catenation and decatenation of duplex circles (Liu et al., 1980). Type I enzymes, because of their inability to make double-strand breaks, can only catalyze these reactions when at least one circle bears a single-strand nick, whereas type II enzymes can perform these reactions with intact circles (Tse and Wang, 1980). [Pg.76]

The challenge to conclude this chapter is therefore to integrate the elements into just one circle as the arrows indicate. To do this we shall first consider briefly the major steps in iron metabolism, then review briefly examples that illustrate the relative importance of individual elements in those steps and, finally tackle the question but how . [Pg.206]

If more than one peak is found within one circle in frame w + I, the trajectory is terminated in frame n. [Pg.450]

Fig. 33.3 (a) The rough sketch of LARFH. One cylinder denotes one a-helix. (b, c) Upper view from the direction of arrow in (a). Mutations are induced toward the outside of hydrophobic cores. One circle denotes one a-helix. One stick denotes one loop. The symbol -I- in (b) (or in (c)) indicates side chain with positive (or negative) charge. These figures show the way to mutate in LARFH, and the same way to induce mutation is used in other proteins, (d) The configuration of a-helices in sulerythrin. The names of these helices are used in Table 33.2. The same classification is used in other proteins... [Pg.558]

This electronic picture of valency is not necessary for visualizing the bonding in a compound of known formula and structure. The formula can be written as a diagram in which the atoms are circles, a line attached to one circle is a valency and a line attached at both ends is a chemical bond. [Pg.12]

A graph is a collection of points and bonds that connect these points. In a pictorial representation of a graph, a point is drawn as a small circle and a bond as a line from one circle to another. (In some applications, it is convenient to define bonds that connect three or more points but we will not discuss this possibility here.) There are two different kinds of points, namely, root points... [Pg.2]

As is evident from this figure, the calculated values (solid line) coincide very well with the experimental ones (circles) over the entire region of time covered. The values of parameters are also sited on the same figure. The change in the optical relaxation curve will be discussed in terms of the change in the parameters, hereafter. [Pg.409]

Fig. 9. A comparison of calculated values (solid line) of relative retardation with experimental ones (circles) for L2. Fig. 9. A comparison of calculated values (solid line) of relative retardation with experimental ones (circles) for L2.
Further on, this figure eight is modified to become one circle. [Pg.88]

The separation efficiency 9 is defined as the unit circle number is equivalent to the 9 theoretical stage in this paper, namely 9 = i/N. The physical meaning of parameter for spiral countercurrent extraction device is that the separation effect of one circle is equivalent to that of 9 theoretical stage. Obviously, the higher the separation efficiency is, the better the separation effect is under the same conditions. [Pg.13]

These position-sensitive detectors permit the use of simpler mechanical systems in diffractometers. A one-dimensional counter makes it possible to leave out one circle a two-dimensional counter, two circles. In principle, then, a single-crystal diffractometer equipped with a two-dimensional counter needs only one circle, while a powder diffractometer equipped with a one-dimensional counter does not require a circle at all. Experience has shown that the greatest flexibility is achieved by incorporating these counters without reducing the number of circles. [Pg.390]

Palmerton reagent, obtained with Dark Field Illumination (reprinted with permission from Fuentes and Favret, Wiley) (b) and (c) MAPS vs RI in Cartesian and polar coordinates, which correspond to the superposition of the angular positions of circles alignment and the directions of facet orientation. This situation can be compared to the ideal pattern of Fig. 5 formed by the combination of one circle and a line. [Pg.161]

EAC is a complex phenomenon driven by the synergistic interaction of mechanical, chemical, and metallurgical factors (Fig. 4.20). Andresen et al. [98] noted that there are limitations to this diagram as parameters such as cold work or irradiation could affect more than one circle of influence independently. [Pg.129]


See other pages where One circle is mentioned: [Pg.928]    [Pg.45]    [Pg.323]    [Pg.257]    [Pg.33]    [Pg.747]    [Pg.372]    [Pg.440]    [Pg.57]    [Pg.929]    [Pg.319]    [Pg.145]    [Pg.101]    [Pg.20]    [Pg.150]    [Pg.198]    [Pg.86]    [Pg.75]    [Pg.11]    [Pg.1132]    [Pg.160]    [Pg.394]   
See also in sourсe #XX -- [ Pg.144 ]




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