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Originally appearing in Volume V03, Page 818 of the 1911 Encyclopedia Britannica.
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BERYLLIUM, or GLuclNuM (symbol Be, atomic weight q.1), one of the metallic chemical elements, included in the same sub-group of the periodic classification as magnesium. It was prepared in the form of its oxide in 1798 by L. N. Vauquelin (Ann. de chimie, 1798, xxvi. p. 155) from the mineral beryl, and though somewhat rare, is found in many minerals. It was first obtained, in an impure condition, in 1828 by A. A. B. Bussy (1794–1882) and F. Wohler by the reduction of the chloride with potassium, and in 1855 H. J. Debray prepared it, in a compact state, by reducing the volatilized chloride with melted sodium, in an atmosphere of hydrogen. L. F. Nilson and 0. Pettersson (Wied. Ann. 1878, iv. p. 554) have also prepared the metal by heating beryllium potassium fluoride with sodium; P. M. Lebeau (Comptes rendus, 1895–1898, vols. 12o-127) has obtained it in lustrous hexagonal crystals by electrolysing the double fluoride of beryllium and sodium or potassium with an excess of Crystal of beryl. beryllium fluoride. It is a malleable metal, of specific gravity 1.64 (Nilson and Pettersson) and a specific heat of o•4079. Its melting-point is below that of silver. In a fine state of division it takes fire on heating in air, but is permanent at ordinary temperatures in oxygen or air; it is readily attacked by hydrochloric and sulphuric acids, but scarcely acted on by nitric acid. It is also soluble in solutions of the caustic alkalis, with evolution of hydrogen a behaviour similar to that shown by aluminium. It combines readily with fluorine, chlorine and bromine, and also with sulphur, selenium, phosphorus, &c. Considerable, discussion has taken place at different times as to the position which beryllium should occupy in the periodic classification of the elements, and as to whether its atomic weight should be 9.1 or 13.65, but the weight of evidence undoubtedly favours its position in Group II., with an atomic weight 9.1 (0=16) (see Nilson and Pettersson, Berichte, 188o, 13, p. 1451, 1884, 17, p. 987; B. Brauner, Berichte, 1881, 14, p. 53; T. Carnelley, Journ. of Chem. Soc., 1879, xxxv. p. 563; 188o, xxxvii., p. 125, and W. N. Hartley, Journ. of Chem. Soc., 1883, xliii. p. 316). The specific heat of beryllium has been calculated by L. Meyer (Berichte, 188o, 13, p. 1780) from the data of L. F. Nilson and 0. Pettersson, and appears to increase rapidly with increasing temperature, the values obtained being o•3973 at 20.2° C., 0.4481 at 73.2° C. and 0.5819 at 256.8° C. Beryllium compounds are almost wholly prepared from beryl. The mineral is fused with potassium carbonate, and, on cooling, the product is treated with sulphuric acid, the excess of which is removed by evaporation; water is then added and the silica is filtered off. On concentration of the solution, the major portion of the aluminium present separates as alum, and the mother liquor remaining contains beryllium and iron sulphates together with a little alum. This is now treated for some days with a hot concentrated solution of ammonium carbonate, which precipitates the iron and aluminium but keeps the beryllium in solution. The iron and aluminium precipitates are filtered off, and the filtrate boiled, when a basic beryllium hydroxide containing a little ferric oxide is precipitated. To remove the iron, the precipitate is again dissolved in ammonium carbonate and steam is blown through the liquid, when beryllium oxide is precipitated. This process is repeated several times, and the final precipitate is dissolved in hydrochloric acid and precipitated by ammonia, washed and dried. It has also been obtained by J. Gibson (Journ. of Chem. Soc., 1893, ]x111. p. 909) from beryl by conversion of the beryllium into its fluoride. Beryllium oxide, beryllia or glucina, BeO, is a very hard white powder which can be melted and distilled in the electric furnace, when it condenses in the form of minute hexagonal crystals. After ignition it dissolves with difficulty in acids. The hydroxide Bc(OH)2 separates as a white bulky precipitate on adding a solution of an alkaline hydroxide to a soluble beryllium salt; and like those of aluminium and zinc, this hydroxide is soluble in excess of, the alkaline hydroxide, but is reprecipitated on prolonged boiling. Beryllium chloride BeCl2, like aluminium chloride, may be prepared by heating a mixture of the oxide and sugar charcoal in a current of dry chlorine. It is deliquescent, and readily soluble in water, from which it separates on concentration in crystals of composition BeC12.4H20. Its vapour density has been determined by Nilson and Pettersson, and corresponds to the molecular formula BeC12. The sulphate is obtained by dissolving the oxide in sulphuric acid; if the solution be not acid, it separates in pyramidal crystals of composition BeSO4.4H2O, whit, from an acid solution of this salt, crystals of composition BeSO4.7H2O are obtained. Double sulphates of beryllium and the alkali metals are known, e.g. BeSO4•K2SO4.3H2O as are also many basic sulphates. The nitrate Be(NO3)2.3H2O is prepared by adding barium nitrate to beryllium sulphate solution; it crystallizes with difficulty and is very deliquescent. It readily yields basic salts. The carbide BeC2 is formed when beryllia and sugar charcoal are heated together in the electric furnace. Like aluminium carbide it is slowly decomposed by water with the production of methane. . Several basic carbonates are known, being formed by the addition of beryllium salts to solutions of the alkaline carbonates; the normal carbonate is prepared by passing a current of carbon dioxide through water containing the basic carbonate in suspension, the solution being filtered and concentrated over sulphuric acid in an atmosphere of carbon dioxide. The crystals so obtained, are very unstable and decompose rapidly with evolution of carbon dioxide. Beryllium salts are easily soluble and mostly have a sweetish taste (hence the name Glucinum (q.v.), from -Avails., sweet); they are readily precipitated by alkaline sulphides with formation of the white hydroxide, and may be distinguished from salts of all other metals by the solubility of the oxide in ammonium carbonate. Beryllium is estimated quantitatively by precipitation with ammonia, and ignition to oxide. Its atomic weight has been determined by L. F. Nilson and O. Pettersson (Berichte, 188o, 13, p. 1451) by analysis of the sulphate, from which they found the value 9.08, and by G. Kruss and H. Moraht (Berichte, 1890, 23, p. 2556) from the con-version of the sulphate BeSO4.4H20 into the oxide, from which they obtained the value 9•o5. C. L. Parsons (Journ. Amer. Chem. Soc., 1904, xxvi. p. 721) obtained the values 9'113 from analyses of beryllium acetonyl-acetate and beryllium basic acetate. For a bibliography see C. L. Parsons, The Chemistry and Literature of Beryllium (1909):
End of Article: BERYLLIUM

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