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Facing of products

Woods has stressed the importance of adaptation in accidents. He describes organizational and human failures as breakdowns in adaptations directed at coping with complexity, and accidents as involving a drift toward failure as planned defenses erode in the face of production pressures and change [214],... [Pg.52]

Drift toward failure as defenses erode in the face of production pressure. [Pg.296]

A highly diastereoselective alkcnylation of c/s-4-cyclopentene-l,3>diols has been achieved with 0-protected (Z)-l-iodo-l-octen-3-ols and palladium catalyst (S. Torii, 1989). The ( )-isomers yielded 1 1 mixtures of diastcrcomcric products. The (Z)-alkenylpalladium intermediate is thought to undergo sy/i-addition to the less crowded face of the prochiral cyclopentene followed by syn-elimination of a hydropalladium intermediate. [Pg.43]

Figure 7 7 shows why equal amounts of (R) and (5) 1 2 epoxypropane are formed m the epoxidation of propene There is no difference between the top face of the dou ble bond and the bottom face Peroxyacetic acid can transfer oxygen to either face with equal facility the rates of formation of the R and S enantiomers of the product are the same and the product is racemic... [Pg.297]

The relative amounts of the two products however are not equal more as 1 2 dimethyl cyclohexane is formed than trans The reason for this is that it is the less hindered face of the double bond that approaches the catalyst surface and is the face to which hydro gen IS transferred Hydrogenation of 2 methyl(methylene)cyclohexane occurs preferen tially at the side of the double bond opposite that of the methyl group and leads to a faster rate of formation of the cis stereoisomer of the product... [Pg.309]

The double bond m 2 methyl(methylene)cyclohexane is prochiral The two faces however are not enantiotopic as they were for the alkenes we discussed m Section 7 9 In those earlier examples when addition to the double bond created a new chirality cen ter attack at one face gave one enantiomer attack at the other gave the other enantiomer In the case of 2 methyl(methylene)cyclohexane which already has one chirality center attack at opposite faces of the double bond gives two products that are diastereomers of each other Prochiral faces of this type are called diastereotopic... [Pg.309]

Approach of borohydnde to the top face of the carbonyl group is sterically hindered by one of the methyl groups The bottom face of the carbonyl group is less congested and the major product is formed by hydride transfer from this direction... [Pg.734]

FIGURE 17 14 (a) Binding sites of enzyme discriminate between prochiral faces of substrate One prochiral face can bind to the enzyme better than the other (b) Reaction attaches fourth group to substrate producing only one enantiomer of chiral product... [Pg.735]

Several antimicrobials have been banned or severely restricted by the EPA based on documented or suspected toxicity or environmental problems. Others have been discontinued in the face of testing costs required by the EPA reregistration program mandated by the Pederal Insecticide, Pungicide, and Rodenticide Act (PIPRA) of 1988 (10). Some of the significant products that have become obsolete are 2,4,5-trichlorophenol/P3 -5 3 -47, sodium... [Pg.93]

Full-Form Shaping. The third appHcation of ECM, hill-form shaping, uti1i2es a constant gap across the entire workpiece, and a constant feed rate in order to produce the type of shape used for the production of compressor and turbine blades. In this procedure, current densities as high as 100 A/cm ate used, and the current density remains high across the entire face of the workpiece. [Pg.310]

This technique, widely used in U.S. plants during World War II, helped to ensure rehabihty and performance of military supphes. Once the war ended, SPG lost favor. However, in the face of rising Japanese product quahty, SPG was reintroduced. In the chemical industry the use of SPG continues to grow in popularity as a key element of an ongoing continuous improvement. [Pg.366]

Reviewing and implementing the changing needs of the product in the face of tougher competition or changed market conditions. [Pg.248]

The stereochemistry of the most fundamental reaction types such as addition, substitution, and elimination are described by terms which specify the stereochemical relationship between the reactants and products. Addition and elimination reactions are classified as syn or anti, depending on whether the covalent bonds which are made or broken are on the same face or opposite faces of the plane of the double bond. [Pg.97]

Chiral chemical reagents can react with prochiral centers in achiral substances to give partially or completely enantiomerically pure product. An example of such processes is the preparation of enantiomerically enriched sulfoxides from achiral sulfides with the use of chiral oxidant. The reagent must preferential react with one of the two prochiral faces of the sulfide, that is, the enantiotopic electron pairs. [Pg.108]


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See also in sourсe #XX -- [ Pg.408 ]




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