Schematic drawings

A surface crack with right-angular parallelepiped shape is illustrated in Fig.l. A schematic drawing of the positioning of this crack at the surface plane (xOy) is shown in Fig.2. The crack is oriented at an angle O with respect to the direction x of the applied field, and the applied field is considered to be magnetic field for simplicity. 

Fig.2 A schematic drawing of the positioning of the crack at the surface plane.

Fig. XV-4. Schematic drawing of four streptavidin molecules bound to biotinylated lipid in a monolayer above heavy water. The scattering length density for neutron reflectivity is shown at the side. (From Ref. 30.)...

Fig. XV-16. A schematic drawing of the arrangement of polyglutamates having alkyl side chains in an LB film. The circles represent the rodlike polyglutamate backbone oriented perpendicular to the page the wiggly lines are the alkyl sidechains. (From Ref. 182.)...

Figure Bl.14.10. Flow tlirough an KENICS mixer, (a) A schematic drawing of the KENICS mixer in which the slices selected for the experiment are marked. The arrows indicate the flow direction. Maps of the z-component of the velocity at position 1 and position 2 are displayed in (b) and (c), respectively, (d) and (e) Maps of the v- and the y-velocity component at position 1. The FOV (field of view) is 10 nnn. (From [31].)...

Figure C2.1.12. Schematic drawing of tire cross section tiirough a sphemiite. The iines indicate tire connectivity of tire crystaiiine iameiiae. The inner stmcture of a iameiia is aiso shown and consists of paraiiei poiymer chains witii tiieir axes periDcndicuiar to tire sphemiite radius.

Figure C3.3.3. A schematic drawing of tlie Doppler-lineshape profile for a typical infrared transition in a small...

Fig. 2. Schematic drawing of one form of skull-melting apparatus only some of the fingers are shown (2). RF = radio frequency.

Fig. 1. Schematic drawings of five types of geotextile fibers (a) monofilament, (b) multifilament, (c) staple fibers, (d) staple yam, and (e) sHt film.

Fig. 1. Schematic drawing of precursors for selected brain oligopeptides. Shaded areas represent the location of sequences of active peptide products which are normally cleaved by trypsin-like enzymes acting on double-basic amino acid residues. Precursors are not necessarily drawn to scale, (a) CRF precursor (b) proopiomelanocortin (POMC) (c) P-protachykinin (d) proenkephalin A (e) CGRP precursor (f) preprodynorphin, ie, preproenkephalin B. Terms are...

Fig. 7. Schematic drawing of a HaIs arc furnace. A, ground B, ignition electrode C, beU-shaped cathode D, insulator E, turbulence chamber F, ground ...

Fig. 5. Schematic drawing of the vatious layers in a hard disk (51).

FIG. 26-37 Schematic drawing of stress-strain curve for austenitic stainless steels. 

Figure 23.37 A power schematic drawing for an automatic capacitor control panel...

Figure 6.10. Schematic drawing of the shock-recovery fixture design.

Figure 6.11. Schematic drawing of a shock-recovery assembly for brittle materials.

Fig. 22.6. A schematic drawing of a largely crystalline polymer like high-density polyethylene. At the top the polymer has melted and the chain-folded segments hove unwound.

Figure 2.7 (a) Illustration of the twist of (3 sheefs. Befa sfrands are drawn as arrows from the amino end to the carboxy end of the p strand in this schematic drawing of fhe protein thioredoxin from E. coli, fhe sfrucfure of which was defermined in the laboratory of Carl Branden, Uppsala, Sweden, fo 2.8 A resolution. The mixed p sheet is viewed from one of ifs ends, (b) The hydrogen bonds between the P strands in the mixed p sheet of fhe same profein. [(a) Adapfed from B. Furugren.]... 

Richardson, J.S. Schematic drawings of protein structures. Methods nzywo/. 115 359-380, 1985. 

Figure 7.1 Schematic drawing of B-DNA. Each atom of the sugar-phosphate backbones of the double helix is represented as connected circles within ribbons. The two sugar-phosphate backbones are highlighted by orange ribbons. The base pairs that are connected to the backbone are represented as blue planks.

Figure 12.2 (a) Schematic drawing of membrane proteins in a typical membrane and their solubilization by detergents. The hydrophilic surfaces of the membrane proteins are indicated by red. (b) A membrane protein crystallized with detergents bound to its hydrophobic protein surface. The hydrophilic surfaces of the proteins and the symbols for detergents are as in (a). (Adapted from H. Michel, Trends Biochem. Sci. 8 56-59, 1983.)... 

Figure 16.19 Schematic drawing illustrating the structure and sequence of the RNA fragment that is recognized and bound by the coat protein of bacteriophage MS2. The RNA fragment forms a base-paired stem with a bulge at base -10 and a loop of four bases. Bases that form sequence-specific Interactions with the coat protein are red. (Adapted from a diagram provided by L. Llljas.)...

Fig. 1. Schematic drawing of a lithium-ion cell, (a) during discharge, (b) during charge.

Fig. 13.11. A schematic drawing of the potential energy surfaces for the photochemical reactions of stilbene. Approximate branching ratios and quantum yields for the important processes are indicated. In this figure, the ground- and excited-state barrier heights are drawn to scale representing the best available values, as are the relative energies of the ground states of Z- and E -stilbene 4a,4b-dihydrophenanthrene (DHP). [Reproduced from R. J. Sension, S. T. Repinec, A. Z. Szarka, and R. M. Hochstrasser, J. Chem. Phys. 98 6291 (1993) by permission of the American Institute of Physics.]...

Fig. 4. Schematic drawing of a reflection-absorption infrared (RAIR) spectroscopy experiment.

Fig.. 24. Schematic drawing of the visual appearance of the failure surfaces of lap joints prepared from hot-dipped galvanized steel substrates. Reproduced by permission of John Wiley and Sons from Ref. [41].

Fig. 16. Top High-rcsolution stereo SEM micrograph of the PAA oxide on 2024 aluminum. Bottom Schematic drawing of the oxide structure. Diagram from Refs. [9,59].

Interest in the elemental composition of aerosol particles arises from concerns about health effects and the value of these elements to trace the sources of suspended particles. The following physical analysis methods have been applied for the elemental measurements of aerosol samples. A schematic drawing of an x-ray fluorescence system is presented in Fig. 13.42. 

A schematic drawing of the system is shown in Fig. 6.5. A powder sample is pressed in place in a cavity in a copper capsule. The cavity is closed with... 

Fignre 9-1 is a schematic drawing of the major eqnipment and protective measnres that comprise the vent manifold system. In the system shown, the vent vapors (offgas) from the condensers of two vacnnm col-nmns are collected in a manifold which goes to the vacnnm pnmp system. From the vacnnm pnmp system, the vapors go to a seal dmm (hydranlic flame arrester), and then to the firebox of a process heater, where they are incinerated. 

FIGURE 6.45 Schematic drawing of an immnnoglobnlin molecnle showing the intramolecnlar and intermolecnlar disnlfide bridges. (A space-filling model of the same molecnle is shown in Figure 1.11.)... 

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