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E-line

Forbes M D E, Peterson J and Breivogel C S 1991 Simple modification of Varian E-line microwave bridges for fast time-resolved EPR spectroscopy Rev. Sc/. Instrum. 66 2662-5... [Pg.1619]

Following the discretization of the solution domain Q (i.e. line AB) into two-node Lagrange elements, and representation of T as T = Ni(x)Ti) in terms of shape functions A, (.v), i = 1,2 within the space of a finite element Q, the elemental Galerkin-weighted residual statement of the differential equation is written as... [Pg.55]

M. E. Lines and A. M. Glass, Principles and Applications ofFerroelectrics and Related Materials, Clarendon, Oxford, UK, 1977. [Pg.210]

M.E. Lines, A.M. Glass Principals and application of ferroelectrics and related materials, Clarendon Press, Oxford, 1977. [Pg.372]

FIGURE 4-26 Common configurations of microelectrodes, a, disk b, ring c, cylinder d, hemisphere e, line (bond) / = length, w = width, r = radius. [Pg.133]

Delete the specified lines (i.e., line n or lines n to m inclusive) and replace them by the following input lines. [Pg.679]

Fig. 13.7 Spectra of Na atom emission from 2 M NaCl solutions after adding ethanol with concentrations of 0.5 mM (b), 1 mM (c), 1.5 mM (d) and 2 mM (e). Line a denotes the spectrum obtained without adding ethanol. The ultrasonic frequency is 138 kHz and the power is 7.3 W [21] (Reprinted from American Chemical Society. With permission)... Fig. 13.7 Spectra of Na atom emission from 2 M NaCl solutions after adding ethanol with concentrations of 0.5 mM (b), 1 mM (c), 1.5 mM (d) and 2 mM (e). Line a denotes the spectrum obtained without adding ethanol. The ultrasonic frequency is 138 kHz and the power is 7.3 W [21] (Reprinted from American Chemical Society. With permission)...
Time-dependent analytical measurements, which give three-dimensional information of the type y = f(zy t) as shown schematically in Fig. 3.11a. The same characteristic holds for distribution analysis in one spatial direction, i.e., line scans, y = f(zylx). Such signal functions are frequently represented in form of multiple diagrams as shown in Fig. 3.11b. [Pg.81]

Deposit formation on fuel system components (i.e., line varnish, valve deposits, etc.)... [Pg.176]

The line defects that can exist in crystal/crystal interfaces can be classified as pure dislocations, dislocation/ledges (i.e., line defects with both dislocation and ledge character), and pure ledges. Examples of pure dislocations are shown in Figs. B.4c and B.7c. In these cases, there is no ledge in the boundary at the dislocation. An example of a dislocation/ledge is shown in Fig. B.66, and a pure ledge without any dislocation content is shown in Fig. B.9. [Pg.599]

All specimens, whether glassy or not, take on a blue color on 7-irradiation, and from experiments performed on glassy specimens this color has been found to correspond to a broad absorption maximum centered around 585 m/x (28, 57, 58, 59). Similar results are also obtained with the alkali hydroxides in D20 here the line at 3300 Gauss(—i.e., line A) is considerably narrower than the corresponding line in the H20 matrix,... [Pg.218]

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See also in sourсe #XX -- [ Pg.324 ]



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