Color-coding

Figure C3.6.10 Defect-mediated turbulence in tire complex Ginzburg-Landau equation, (a) The phase, arg( ), as grey shades, (b) The amplitude [A], witli a similar color coding. In tire left panel topological defects can be identified as points around which one finds all shades of grey. Note tire apparently random spatial pattern of amplitudes.

To display properties on molecular surfaces, two different approaches are applied. One method assigns color codes to each grid point of the surface. The grid points are connected to lines chicken-wire) or to surfaces (solid sphere) and then the color values are interpolated onto a color gradient [200]. The second method projects colored textures onto the surface [202, 203] and is mostly used to display such properties as electrostatic potentials, polarizability, hydrophobidty, and spin density. 

Fig. 2. A stick drawing of the dmg Zantac (ranitidine) illustrating the method of showing color-coded electronic charge data (color not shown here), where...

Fig. 3. CPK (Corey-Pauhng-Koulton) rendering displaying shaded soHd surface for ranitidine, normally color-coded according to atom types (black representing carbon green, hydrogen yellow, sulfur blue, nitrogen and red, oxygen colors not shown here).

Fig. 5. A representation of ranitidine displaying four layers of the Connolly solvent-accessible dot surface normally color-coded in this process to correspond with the energies of electrostatic potential (color not shown here). Thus, the highest charge density would be indicated by red dots representing points where the attraction to an atom is strongest, and conversely, purple points would signify regions of maximal positive charge.

Fig. 7. Graphical representations of (a) the Highest Occupied Molecular Orbital (HOMO) and (b) the Lowest Unoccupied Molecular Orbital (LUMO) for ranitidine. It is possible, in the ordinarily visible color-coded data not shown here, to distinguish the strong localization (a) of the HOMO to the sulfur atom and adjacent nitroethyleneamine fragment and the contrasting localization (b) of the LUMO to the nitroethylenearnine fragment. Neither the LUMO not HOMO appear to have contributions from the dimethylaminomethyl-suhstitiited furan.

Color Coding. New machinery and equipment must conform to OSHA standards and OEM specifications for color coding. Color coding can also help to speed up maintenance procedures. Examples include lubrication information, orientation, timing marks, torque requirements, etc. 

AppHcation of an adhesion-promoting paint before metal spraying improves the coating. Color-coded paints, which indicate compatibiHty with specific plastics, can be appHed at 20 times the rate of grit blasting, typically at 0.025-mm dry film thickness. The main test and control method is cross-hatch adhesion. Among the most common plastics coated with such paints are polycarbonate, poly(phenylene ether), polystyrene, ABS, poly(vinyl chloride), polyethylene, polyester, and polyetherimide. 

C color coding marker black black light green light green blue brown red ... 

Use unique containers (e.g., colors, shapes) where appropriate Identify all process and utility lines (written material name and color coded) Indicate direction of flow, where applicable... 

Do not use color coding as the sole solution Provide adequate labeling Verify raw materials before use Bench scale test critical raw materials prior... 

Figure 2.4 The helical wheel or spiral. Amino acid residues are plotted every 100° around the spiral, following the sequences given in Table 2.1. The following color code is used green Is an amino acid with a hydrophobic side chain, blue is a polar side chain, and red is a charged side chain. The first helix is all hydrophobic, the second is polar on one side and hydrophobic on the other side, and the third helix is all polar.

Figure 7.7 Color codes for the recognition patterns at the edges of the base pairs in the major (a) and minor (b) grooves of B-DNA. Hydrogen-bond acceptors are red hydrogen-bond donors are blue. The methyl group of thymine is yellow, while the corresponding H atom of cytosine is white.

Figure 7.8 Sequence-specific recognition sites in the major groove of DNA for three restriction enzymes—Eco RI, Bal I, and Sma I. The DNA sequences that are recognized by these enzymes ate represented by tbe color code defined in Figure 7.7.

Only a rather limited number of base pairs is needed to provide unique and discriminatory recognition sites in the major groove. This is illustrated in Figure 7.8, which gives the color codes for the hexanucleotide recognition sites of three different restriction enzymes—Eco Rl, Bal 1, and Sma 1. It is clear that these patterns are quite different, and each can be uniquely recognized by specific protein-DNA interactions. 

Supply air Treated or untreated air entering the space. For the purpose of drawings it is color-coded to show the various thermodynamic treatments. 

The black cylinder had contained oxygen. All persons responsible for handling cylinders, particularly persons in charge of air masks, should be familiar with the color codes for cylinders. 

Observation and identification levels ensure labeling is clear, consistent, and easily distinguished using color-coded pipework improve work environment (e.g., lighting and general housekeeping). 

Strategy Follow the four-step procedure described above. Actually, if you look carefully at the text preceding this example, you ll find that all the half-equations have already been balanced The color coding should help you find them. 

The periodic table and electron configurations. The periodic table can be used to deduce the electron configurations of atoms. The color code in the figure shows the energy sublevels being filled across each period. Elements marked with asterisks have electron configurations slightly different from those predicted by the table. 

The ozone (03) layer aver the southern hemisphere stratosphere in August 2007. The bar at the bottom indicates the color-coding used to indicate the thickness of the layer. The thickness is measured in Dobsons (= 0.01 mm thick). The normal ozone layer for the stratosphere is 360 Dobsons (color coded as green). The ozone "hole" shown in pink is 200-220 Dobsons. The "hole" will increase when another reading is taken in September. 

The species shown in red, HB and HA, act as Bronsted-Lowry acids in the forward and reverse reactions, respectively A and B (blue) act as Bronsted-Lowry bases. (We will use this color coding consistently throughout the chapter in writing Bronsted-Lowry acid-base equations.)... 

---