N water

Details about the various U.N. water-related activities can be found in References 26—29, as well as in topical reports pubhshed by the United Nations. [Pg.239]

E] silica smoke Sod.Nit.Prus. n Sod.Nitrate <0 Sod. Sulphite m Methanol (D) n water... [Pg.41]

Brauchwasaer, n. water fit for industrial use. Braue,/. (eye)brow. brauen, v.t. i. brew,... [Pg.80]

BfaU Wasser, n. water for brewing mash liquor, liquor, wesen, n. brewing business, brav a. brave, gallant, good,... [Pg.81]

Brlih-messer, m. (Leather) barkometer. -wasser, n. water for scalding, briillen, v.i. roar, bellow, howl, brummen, v.i. hum, buzz, low, growl, grumble. Brunelle, /. self-heal (Prunella vulgaris). [Pg.84]

Fabrikations-gangt m. manufacturing process, processing. -prozess, m. manufacturing process, -wassert n. water for manufacturing use. [Pg.143]

Hydratwasser, n. water of hydration, hydratwasserhaltig, a. containing water of hydration. [Pg.220]

Marien-bad, n. water bath, -distel, /. milk thistle (Silybum marianum). -glas, n. selenite (ruasisches) mica. -kSfer, m. ladybird. -kSmer, n.pl. milk-thistle seed. [Pg.289]

Schmelz-verfahren, n. melting process, fusion process smelting process, -warme, /. heat of fusion, -wasser, n. water from melting ice or snow, -werk, n. smeltery foundry enameled work. [Pg.392]

Schweiss-warme, /. welding heat, -wasser, n. water condensed on a surface. -woUe, /. wool containing suint, wool in the yolk. [Pg.402]

Wasen, m, vapor, exhalation lawn, turf, Wasser, n, water,... [Pg.504]

Wasser-bindung, /, combination of or with water, -bindungsvermbgen, n. water-binding power, -blase, /, bubble (Afed.) vesicle vessel for heating water water-storage cell,... [Pg.504]

Wasser-entzieher, m, (Textiles, etc.) hydroextractor. -entziehung, /, removal of water, dehydration desiccation hydroextraction, -entziehungsmittel, n, dehydrating agent, -erguss, m, watery effusion, edema, -farbe, /, water color color of water, -foss, n. water cask, water tub. -fenchel, m. water fennel. [Pg.504]

Wasser-gang, m. aqueduct drain waterway. -gas, n. water gas, -gasteer, m. water-gas tar, -geblkse, n, water blast, -gefass, n. water vessel (Med.) lymphatic vessel, -gehalt, m, water content, moisture content. [Pg.505]

WasserUnie, /, water line. wasser-Ios, a. waterless, without water, anhydrous, -loslich, a. water-soluble, Wasser-luftpumpe, /, water vacuum pump, -maische, /. (aqueous) infusion mash, -malerei, /, water-color painting, -mangel, m, lack (or scarcity) of water, -mantel, m. water jacket, -mass, n, water gage, -menge, /, amount of water,... [Pg.505]

Wasserstrahl, m. jet of water, water jet. -geblase, n. water-jet blast, -luftpumpe, -pumpe, /. water-jet vacuum pump. [Pg.506]

Wasser-suppe, /. water gruel. -talk, m. brucite. -teilchen, n. water particle, -tiefe, /. depth of water draft (of ships), -tier, n. water animal, aquatic animal. [Pg.506]

Wasser-trockenscbrank, m. water-jacketed dry ing closet, -trommelgeblilse, n. water-drum blast, trompe. -tropfchen, n. water droplet, -tropfen, n. drop of water, -umlauf, m. water circulation. [Pg.506]

The conformation of Schiff-base complexes of copper(IT) a stereo-electronic view. H. S. Maslen and T. N. Waters, Coord. Chem. Rev., 1975,17,137-176 (127). [Pg.44]

A recent breakthrough in molecular theory of hydrophobic effects was achieved by modeling the distribution of occupancy probabilities, the pn depicted in Figure 4, rather than applying a more difficult, direct theory of po for cavity statistics for liquid water (Pohorille and Pratt, 1990). This information theory (IT) approach (Hummer et al., 1996) focuses on the set of probabilities pn of finding n water centers inside the observation volume, with po being just one of the probabilities. Accurate estimates of the pn, and po in particular, are obtained using experimentally available information as constraints on the pn. The moments of the fluctuations in the number of water centers within the observation volume provide such constraints. [Pg.313]

Fig. 5. Probabilities pn of observing n water-oxygen atoms in spherical cavity volumes v. Results from Monte Carlo simulations of SPC water are shown as symbols. The parabolas are predictions using the flat default model in Eq. (11). The center-to-center exclusion distance d (in nanometers) is noted next to the curves. The solute exclusion volume is defined by the distance d of closest approach of water-oxygen atoms to the center of the sphere. (Hummer et al., 1998a)... [Pg.316]

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