Step-families

Grandparent-visitation laws did not create that erosion. More varied and complicated family structures have arisen because of divorce, decisions not to marry, single-parent families, remarriages and step-families, parents who abandon their children to temporary caretakers and children being raised by third parties because parents are deemed unfit. 

The family of hierarchical elements are specifically designed to minimize the computational cost of repeated computations in the p-version of the finite element method (Zienkiewicz and Taylor, 1994). Successive approximations based on hierarchical elements utilize the derivations of a lower step to generate the solution for a higher-order approximation. This can significantly reduce the... 

In drafting a patent appHcation, proceeding methodically through the several steps necessary to produce the type of disclosure legally and technically sufficient to satisfy the requirements of the laws of the United States is absolutely essential to a successful granting of the patent. A first step is to outHne those elements of the invention which are absolutely essential to its practice. A body of disclosure should be outlined for each of the essential elements of the claim. This disclosure should describe each element in terms of its function, as weU as the parameters that are relevant to the essential nature of the individual element. For example, if a chemical mixture has a component which acts so as to thicken the mixture, it is appropriate to outHne the family of constituents that can serve this function. At the same time, a full outHne of the disclosure of this individual element will include mention of those chemicals that are preferred for use within the mixture so as to perform the desired thickening function. 

The most important connective transforms in retrosynthetic analysis are the family of C=C cleavage transforms, including one-step (e.g. ozonolytic) or two-step (e.g. OSO4 followed by Pb(OAc)4) (Chart 25). There are many elegant syntheses of challenging molecules which depend on such processes. Two examples will provide an idea of the underlying retrosynthetic approach. 

There are those who see the emergence of sector standards as a retrograde step, having reached the stage where we have condensed all the world s national quality system standards into one group of 20 standards. Those following the development of ISO 9000 will already be aware that the 20 standards in the ISO 9000 family are soon to be reduced to four (ISO 9000, ISO 9001, ISO 9004, and a replacement for ISO 10011). It... 

For the purpose of high-resolution fractionation, the gel medium must be tailor made to cope with different separation ranges. The Superdex family is designed for the high resolution of peptides and proteins having a molecular mass of 500 to 100,000. Also, Sephacryl media have found wide applicability as a final polishing step in process scale SEC (see Section III,C). 

In 1906 Pierre was awarded a full professorship and position as chair of physics at the Sorbonne and Marie was promised a position as director of the laboratory which the university planned to create for Pierre. However, in April 1906 Pierre was killed when he stepped into the path of a horse-drawn cart. While this event personally devastated Marie, it was a pivotal point in her professional career. She was offered Pierre s chaired position at the level of assistant professor, making her the first woman in France to obtain a professorship and allowing her to both continue her research and financially support her family. 

Catalysts developed in the titanium-aluminum alkyl family are highly reactive and stereoselective. Very small amounts of the catalyst are needed to achieve polymerization (one gram catalyst/300,000 grams polymer). Consequently, the catalyst entrained in the polymer is very small, and the catalyst removal step is eliminated in many new processes. Amoco has introduced a new gas-phase process called absolute gas-phase in which polymerization of olefins (ethylene, propylene) occurs in the total absence of inert solvents such as liquefied propylene in the reactor. Titanium residues resulting from the catalyst are less than 1 ppm, and aluminum residues are less than those from previous catalysts used in this application. 

Alkenes are named using a series of rules similar to those for alkanes (Section 3.4), with the suffix -ene used instead of -one to identify the family. There are three steps. 

Step 1 of Figure 29.3 Introduction of a Double Bond The /3-oxidation pathway begins when a fait)7 acid forms a thioester with coenzyme A to give a fatty acyl Co A. Two hydrogen atoms are then removed from C2 and C3 of the fatty acyl CoA by one of a family of acyl-CoA dehydrogenases to yield an a,/3-unsaturated acyl CoA. This kind of oxidation—the introduction of a conjugated double bond into a carbonyl compound—occurs frequently jn biochemical pathways and usually involves the coenzyme flavin adenine dinucleotide (FAD). Reduced FADH2 is the by-product. 

Step 3 of Figure 29.3 Alcohol Oxidation The /3-hydroxyacyl CoA from step 2 is oxidized to a /3-ketoacyl CoA in a reaction catalyzed by one of a family of L-3-hydroxyacyl-CoA dehydrogenases, which differ in substrate specificity according to the chain length of the acyl group. As in the oxidation of sn-glycerol 3-phosphate to dihydroxyacetone phosphate mentioned at the end of Section 29.2, this alcohol oxidation requires NAD+ as a coenzyme and yields reduced NADH/H+ as by-product. Deprotonation of the hydroxyl group is carried out by a histidine residue at the active site. 

Conventional electronic devices are made on silicon wafers. The fabrication of a silicon MISFET starts with the diffusion (or implantation) of the source and drain, followed by the growing of the insulating layer, usually thermally grown silicon oxide, and ends with the deposition of the metal electrodes. In TFTs, the semiconductor is not a bulk material, but a thin film, so that the device presents an inverted architecture. It is built on an appropriate substrate and the deposition of the semiconductor constitutes the last step of the process. TFT structures can be divided into two families (Fig. 14-12). In coplanar devices, all layers are on the same side of the semiconductor. Conversely, in staggered structures gate and source-drain stand on opposing sides of the semiconductor layer. 

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