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Drawings Not to Scale

FIG. 25-76 Schematic of an FML plus compacted-soil double-liner system for a landfill, (Drawing not to scale.) (U.S EFA, EFA/530/SW-S5-012 Washington, DC., 19S5 EiomEieerrmn, H M., Standard Handbook of Hazardous Waste Treatment and Disposal, AtcGiutu-H) //, 19SS. )... [Pg.2259]

Figure 19-19 Schematic drawing (not to scale) illustrating the use of two optical traps that are focused on beads attached to a single actin filament. Figure 19-19 Schematic drawing (not to scale) illustrating the use of two optical traps that are focused on beads attached to a single actin filament.
Figure 4. Schematic of Effect of Pulse Current on the Diffusion Layer Thickness for a PTH (Drawing not to scale)... Figure 4. Schematic of Effect of Pulse Current on the Diffusion Layer Thickness for a PTH (Drawing not to scale)...
Figure 4 Schematic of (A) the nephelometer used to measure the scattering phase function at wavelength A of the laser. (B) Optical path with coordinate system used in recovering the scattering phase function from the measured intensity distribution (Privoznik et al., 1978). (C) The miniaturized Gershun tube (drawings not to scale). Figure 4 Schematic of (A) the nephelometer used to measure the scattering phase function at wavelength A of the laser. (B) Optical path with coordinate system used in recovering the scattering phase function from the measured intensity distribution (Privoznik et al., 1978). (C) The miniaturized Gershun tube (drawings not to scale).
Fig. 3.7 a Schematic and b photograph, c Side view of the micro-channel. Cross section is circular with internal diameter of 0.2 mm. The observation plane (XY) is positioned downstream about 30 mm away from the T inlet. Drawing not to scale... [Pg.58]

Curve of subsidence showing tensile and compressive strains, vertical subsidence and till, together with angle of draw (not to scale). 438... [Pg.438]

Fig. 8.8. Schematic drawing (not to scale) of the puncture test. The tapered tran-cated cone with its dimensions (left), the arrangement of the tmncated cones on the base plate of the pressure vessel (right) and the test equipment with inserted geomembrane and protective nonwoven geotextile as well as the sand bed are indicated. The test procedure is described in the text... Fig. 8.8. Schematic drawing (not to scale) of the puncture test. The tapered tran-cated cone with its dimensions (left), the arrangement of the tmncated cones on the base plate of the pressure vessel (right) and the test equipment with inserted geomembrane and protective nonwoven geotextile as well as the sand bed are indicated. The test procedure is described in the text...
Figure 3.3 (a) Schematic drawing (not to scale) showing a typical mixed potential process of metal dissolution, using the example of Cu in Eqn (3.4). Transport of dissolved ions closes the (corrosion) current loop in the electrolyte. Reactions (3.9) and (3.10) are coupled here, as also noted in Figure 3.2(a—c). (b) A simple mixed potential scheme, commonly found in the corrosion literature to describe galvanic decay of an anode metal A in the bimetallic couple of A and C (cathode). The cation charge of A is z+. The cathode metal supports ORR, and the electrons necessary for this reaction come from the anode metal s dissolution. [Pg.57]

Figure 5 Drawing not to scale. The figure shows a block diagram of the ceramic disc and the muitiple gated regions or leveis of interest in the x-y plane. The diagram corresponds to the same leveis of interest that are shown in Figure 6.. Figure 5 Drawing not to scale. The figure shows a block diagram of the ceramic disc and the muitiple gated regions or leveis of interest in the x-y plane. The diagram corresponds to the same leveis of interest that are shown in Figure 6..
Figure 8 Drawing not to scale. The figure displays a cross-sectional drawing of the TEC. The device is composed of multiple copper pillars solder bonded to two (2) outer cermaic plates. Approximate material thickness dimensions are noted on the left side of the drawing (overall dimension 30.0 mm (xy) by 4.4 mm (z)). Figure 8 Drawing not to scale. The figure displays a cross-sectional drawing of the TEC. The device is composed of multiple copper pillars solder bonded to two (2) outer cermaic plates. Approximate material thickness dimensions are noted on the left side of the drawing (overall dimension 30.0 mm (xy) by 4.4 mm (z)).
Figure 16.6 The Stern model of the double layer. The outer Helmholtz plane (OHP) and the width of the diffusion layer (8) are indicated. The shaded circles represent solvent molecules. The drawing is not to scale The width of the diffusion layer is several orders of magnitude larger than molecular sizes. Figure 16.6 The Stern model of the double layer. The outer Helmholtz plane (OHP) and the width of the diffusion layer (8) are indicated. The shaded circles represent solvent molecules. The drawing is not to scale The width of the diffusion layer is several orders of magnitude larger than molecular sizes.
Fig. 1 Optical diagram of the prototype system model. The drawing is not to scale and is not to be considered an optical ray diagram. The principal dispersing element is a coarse echelle ruled grating 20 x 40 cm wide. Theoretical double-pass resolution at four normal slits is approximately 0.095 cm-1 actual achievable resolution is approximately 0.009 cm-1. Fig. 1 Optical diagram of the prototype system model. The drawing is not to scale and is not to be considered an optical ray diagram. The principal dispersing element is a coarse echelle ruled grating 20 x 40 cm wide. Theoretical double-pass resolution at four normal slits is approximately 0.095 cm-1 actual achievable resolution is approximately 0.009 cm-1.
Aside from the strained complexity of this sequence of actions, Charles Honorton [34] noted that Hansel s diagram, which is the main support of his conjectures, is labeled not to scale. If the drawing were to scale, it would be obvious that the two doors were actually too far apart for such a scenario to be possible. This certainly raises the question of whether the critics of parapsychology make motivated errors themselves. [Pg.28]

THE SHAPE OF A SMALL ORGANIC MOLECULE, RETINAL. THIS FORCES A CHANGE IN THE SHAPE OF THE MUCH LARGER PROTEIN, RHODOPSIN, TO WHICH IT IS ATTACHED. THE CARTOON DRAWING OF THE PROTEIN IS NOT TO SCALE. [Pg.19]

The drawing is not to scale any given cell would have many more myosin molecules on its surface. [Pg.61]

Fig. 6 Schematic diagrams showing the ATR objective in reflecting visible mode left) and measuring mode right). In the measuring mode, the Ge crystal is lowered to make contact with the sample. Different pressure can be applied onto the sample. (Drawings are not to scale)... Fig. 6 Schematic diagrams showing the ATR objective in reflecting visible mode left) and measuring mode right). In the measuring mode, the Ge crystal is lowered to make contact with the sample. Different pressure can be applied onto the sample. (Drawings are not to scale)...
Figure 30.4. Myelinating Schwann cell of PNS. The same Schwann cell is shown unwrapped (top), in longitudinal section (middle), and in cross section (bottom). Note the channels of cytoplasm (Schmidt-Lantermann clefts) and the large expanses of compacted cell membranes (myelin). (These drawings are not to scale.) (From Raine, Morphology of myelin and myelination. In P. Morell (Ed.). Myelin, 2nd ed., Plenum Press, New York, 1984.)... Figure 30.4. Myelinating Schwann cell of PNS. The same Schwann cell is shown unwrapped (top), in longitudinal section (middle), and in cross section (bottom). Note the channels of cytoplasm (Schmidt-Lantermann clefts) and the large expanses of compacted cell membranes (myelin). (These drawings are not to scale.) (From Raine, Morphology of myelin and myelination. In P. Morell (Ed.). Myelin, 2nd ed., Plenum Press, New York, 1984.)...
Drawings of colloidal structures are usually not to scale. The parts (bubbles, drops, fibres and so on) of a structure typically have dimensions in the range of a micrometre the stabilizing species mostly have dimensions in the range of a nanometre, so a thousand times smaller. Stabilizers only occupy a thin layer near an interface. [Pg.264]

FIGURE 10.18 Schematic representation of depletion staHlization. Note that drawing of polymers is not to scale. [Pg.450]

Figure 8.1 The cross-section view of optical fiber (drawing is not to scale). 8.1 2. Materials of Optical Fiber... Figure 8.1 The cross-section view of optical fiber (drawing is not to scale). 8.1 2. Materials of Optical Fiber...
Thrombin initially acts by binding to the thrombin receptor, a membrane-boxmd protein in the plasma membrane of the platelet. Thrombin binds to the thrombin receptor, and then catalyzes the cleavage of its N-terminal region. Thrombin cleaves in between the residues of arginine and serine (Arg-Ser), as indicated herein. The following diagram depicts the first 18 amino acid residues of the thrombin receptor. The various features of the drawing are not to scale ... [Pg.533]

Figure 6. Schematic drawing of the T-shaped CjHj-HX geometries characteristic of such complexes imbedded in rare-gas matrices (not to scale). Figure 6. Schematic drawing of the T-shaped CjHj-HX geometries characteristic of such complexes imbedded in rare-gas matrices (not to scale).
Fig. 11.47 Alteration of octahedral orbital energies (center) under tetragonal distortion (a) z ligands out (b) z ligands in. Drawing is not to. scale ... Fig. 11.47 Alteration of octahedral orbital energies (center) under tetragonal distortion (a) z ligands out (b) z ligands in. Drawing is not to. scale ...
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