Crystallizes sentence example

crystallizes
  • It crystallizes in needles and is soluble in water.
    1
    0
  • It crystallizes in orange-red needles and its alcoholic solution fluoresces strongly.
    0
    0
  • It crystallizes in needles and is soluble in alcohol.
    0
    0
  • Potassium phenolate, C 6 H 5 OK, crystallizes in fine needles, is very hygroscopic and oxidizes rapidly on exposure.
    0
    0
  • The book of Deuteronomy crystallizes a doctrine; it is the codification of teaching which presupposes a carefully prepared soil.
    0
    0
    Advertisement
  • The story of this scribe (now combined with the memoirs of Nehemiah) crystallizes the new movement inaugurated after a return of exiles from Babylonia.
    0
    0
  • It crystallizes in octahedra isomorphous with stannic oxide.
    0
    0
  • Potassium ruthenium cyanide, K4Ru(CN) 6.3H 2 O, formed when potassium ruthenate is boiled with a solution of potassium cyanide, crystallizes in colourless plates which are soluble in water.
    0
    0
  • Potassium ruthenate, K2Ru04 H20, obtained by fusion of the metal with caustic potash and nitre, crystallizes in prisms which become covered with a black deposit on exposure to moist air.
    0
    0
  • Ammonium iodide assumes cubic forms with perfect cubic cleavage; tetramethyl ammonium iodide is tetragonal with perfect cleavages parallel to {100} and {o01} - a difference due to the lengthening of the a axes; tetraethyl ammonium iodide also assumes tetragonal forms, but does not exhibit the cleavage of the tetramethyl compound; while tetrapropyl ammonium iodide crystallizes in rhombic form.
    0
    0
    Advertisement
  • It crystallizes in fine silky needles and is soluble in water and alcohol.
    0
    0
  • Lead chloride, PbC1 2, occurs in nature as the mineral cotunnite, which crystallizes in the rhombic system, and is found in the neighbourhood of volcanic craters.
    0
    0
  • It crystallizes in prisms with four molecules of water; when.
    0
    0
  • This solution is allowed to stand for some time (in order that any calcium sulphate and basic ferric sulphate may separate), and is then evaporated until ferrous sulphate crystallizes on cooling; it is then drawn off and evaporated until it attains a specific gravity of 1.40.
    0
    0
  • It crystallizes (in long needles) more easily when gently agitated during the cooling, or when mixed with such substances as kieselguhr.
    0
    0
    Advertisement
  • It crystallizes in needles which rapidly decompose when exposed to moist air.
    0
    0
  • This is generally effected by adding the calculated amount of potassium chloride (of which immense quantities are obtained as a by-product in the Stassfurt salt industry) dissolved in hot water to a saturated boiling solution of sodium nitrate; the common salt, which separates on boiling down the solution, is removed from the hot solution, and on cooling the potassium nitrate crystallizes out and is separated and dried.
    0
    0
  • The salt crystallizes out on cooling with 7 molecules of water, forming colourless orthorhombic prisms, usually small and needle-shaped.
    0
    0
  • The whole mass dissolves on heating, and the anthracene crystallizes out on cooling.
    0
    0
  • It crystallizes in quadratic prisms and has a bitter taste.
    0
    0
    Advertisement
  • By warming its aqueous solution with an excess of silver oxide it is converted into tetramethylammonium hydroxide, N(CH3)40H, which crystallizes in hygroscopic needles, and has a very alkaline reaction.
    0
    0
  • The residue crystallizes slowly, and the crystalline product is almost wholly d-benzyl-allyl-phenyl-ammonium-d-sulphonate, the corresponding /-compound remaining as a syrupy residue.
    0
    0
  • It crystallizes in small colourless needles and is easily soluble in water; the concentrated aqueous solution dissolves bromine and iodine readily.
    0
    0
  • It crystallizes from water (in which it is very soluble) in monoclinic prisms which approximate in composition to Sr(N03)2.4H20 or Sr(N03)2.5H20.
    0
    0
  • The hydrated acid crystallizes in prisms which effloresce in air, and are readily soluble in water.
    0
    0
    Advertisement
  • The native metal crystallizes in the cubic system, the octahedron being the commonest form, but other and complex combinations have been observed.
    0
    0
  • It crystallizes in short hard prisms, which are readily soluble in water but insoluble in alcohol.
    0
    0
  • Caesium nitrate, CsNO 3, is obtained by dissolving the carbonate in nitric acid, and crystallizes in glittering prisms, which melt readily, and on heating evolve oxygen and leave a residue of caesium nitrite.
    0
    0
  • Potassium osmiate, K 2 0sO 4 2H 2 0, formed when an alkaline solution of the tetroxide is decomposed by alcohol, or by potassium nitrite, crystallizes in red octahedra.
    0
    0
  • It crystallizes in dark red octahedra which are almost insoluble in cold water.
    0
    0
    Advertisement
  • If the carbonate be in excess, the salt Na4Zr04 results, which when treated with water gives Na2Zr8017 12H20, which crystallizes in hexagonal plates.
    0
    0
  • As the mineral thenardite or mirabilite, which crystallizes in the rhombic system, it occurs in many parts of the world, as in Spain, the western states of North America and the Russian Caucasus; in the last-named region, about 25 m.
    0
    0
  • It crystallizes in colourless prisms, possessing a saline taste; it sublimes on heating and is easily soluble in water.
    0
    0
  • It crystallizes in small prisms, having a sharp saline taste, and is exceedingly soluble in water.
    0
    0
  • It is easily soluble in water, from which it crystallizes in cubes, and also in alcohol.
    0
    0
    Advertisement
  • It crystallizes in large transparent prisms, which melt on heating and decompose, leaving a residue of metaphosphoric acid, (HP03).
    0
    0
  • It crystallizes in quadratic prisms.
    0
    0
  • Pyrazine, C4H4N2, crystallizes from water in prisms, which have a heliotrope odour.
    0
    0
  • The carnallite principally dissolves and crystallizes out relatively pure on cooling.
    0
    0
  • To purify the crude product it is dissolved in hot water and the solution filtered and allowed to cool, when the bulk of the dissolved salt crystallizes out with characteristic promptitule.
    0
    0
    Advertisement
  • It crystallizes from water in colourless rhombic prisms, containing four molecules of water of crystallization, and possesses a very acid reaction.
    0
    0
  • It crystallizes in long yellow needles and decomposes readily on heating into the monochloride and chlorine.
    0
    0
  • The salt crystallizes in large yellow plates, containing three molecules of water of crystallization.
    0
    0
  • It crystallizes in dark red monoclinic prisms which are readily soluble in water.
    0
    0
  • Hydroferricyanic acid, H 3 Fe(NC)s, obtained by adding concentrated hydrochloric acid to a cold saturated solution of potassium ferricyanide, crystallizes in brown needles, and is easily decomposed.
    0
    0
    Advertisement
  • It crystallizes in dark red prisms which are readily soluble in water; it is a valuable reagent for the detection of sulphur, this element when in the form of an alkaline sulphide giving a characteristic purple blue coloration with the nitroprusside.
    0
    0
  • As the sapphire crystallizes in the hexagonal system it is dichroic, but in pale stones this character may not be well marked.
    0
    0
  • Epsom salts crystallizes in the orthorhombic system, being isomorphous with the corresponding zinc and nickel sulphates, and also with magnesium chromate.
    0
    0
  • If the violet solution is allowed to evaporate slowly at ordinary temperatures the sulphate crystallizes out as Cr2(S04)3.15H20, but the green solution on evaporation leaves only an amorphous mass.
    0
    0
  • The nitrate, Cr(NO 3) 3.9H 2 0, crystallizes in purple prisms and results on dissolving the hydroxide in nitric acid, its solution turns green on boiling.
    0
    0
    Advertisement
  • It crystallizes in red octahedra and dyes silk and wool yellow.
    0
    0
  • It crystallizes in orange-red needles and is decomposed by water.
    0
    0
  • Abietic acid can be extracted from colophony by means of hot alcohol; it crystallizes in leaflets, and on oxidation yields trimellitic, isophthalic and terebic acid.
    0
    0
  • Boric acid crystallizes from water in white nacreous laminae belonging to the triclinic system; it is difficultly soluble in cold water, but dissolves readily in hot water.
    0
    0
  • The simplest case is that of water and a salt, such as sodium chloride, which crystallizes without water.
    0
    0
  • If the salt crystallizes with a certain amount of water as well as with none, we get a second point of equilibrium between four phases.
    0
    0
  • Strychnine crystallizes from alcohol in colourless prisms, which are practically insoluble in water, and with difficulty soluble in the common organic solvents.
    0
    0
  • Aluminium sulphate crystallizes as Al 2 (SO 4) 3.181120 in tablets belonging to the monoclinic system.
    0
    0
  • In short, from Ar 3 to Ar t the excess substance ferrite or cementite, in hypoand hyper-eutectoid steels respectively, progressively crystallizes out as a network or skeleton within the austenite mothermetal, which thus progressively approaches the composition of hardenite, reaching it at Ar t, and there splitting up into ferrite and cementite interstratified as pearlite.
    0
    0
  • It crystallizes in the cubical system, often in beautiful octahedra and rhombic dodecahedra.
    0
    0
  • It crystallizes in the rhombohedral system.
    0
    0
  • Siderite, or spathic iron ore, FeCO 3, crystallizes in the rhombohedral system and contains 48.28% of iron.
    0
    0
  • It crystallizes in the cubic system, usually in cubes, pentagonal dodecahedra or octahedra, often of great beauty and perfection.
    0
    0
  • C 6 H,N 2 Br 3, which crystallizes in yellow plates.
    0
    0
  • Potassium benzene diazotate, C 6 H 5 N 2 OK, crystallizes in colourless silky needles.
    0
    0
  • On account of their resemblance to the twins of the mineral spinel (which crystallizes in octahedra) these are ?i D known as " spinel twins."
    0
    0
  • It crystallizes in large colourless plates which possess a blue fluorescence.
    0
    0
  • It crystallizes in plates, and is soluble in water and alcohol.
    0
    0
  • The nitrate Be(NO,)2.3H20 is prepared by adding barium nitrate to ber y llium sulphate solution; it crystallizes with difficulty and is very deliquescent.
    0
    0
  • Halite or rock-salt crystallizes in the cubic system, usually in cubes, rarely in octahedra; the cubes being solid, unlike the skeleton-cubes obtained by rapid evaporation of brine.
    0
    0
  • It crystallizes from its solution in long yellow needles, T10H or T10H-+H 2 0, which dissolve readily in water, forming an intensely alkaline solution, which acts as a caustic, and like it greedily absorbs carbonic acid from the atmosphere.
    0
    0
  • It crystallizes in needles and is readily hydrolysed by alkalis.
    0
    0
  • It crystallizes in large pink crystals, the colour of which is probably due to the presence of a small quantity of manganic sulphate or of a cobalt sulphate.
    0
    0
  • It crystallizes in dark purple-red prisms, isomorphous with potassium perchlorate.
    0
    0
  • It crystallizes with great difficulty.
    0
    0
  • Barium Permanganate, BaMn 2 0 8, crystallizes in almost black needles, and is formed by passing carbon dioxide through water containing suspended barium manganate.
    0
    0
  • When this solution is concentrated by evaporation and cooled down, about five-sixths of the chlorate of potash crystallizes out.
    0
    0
  • It crystallizes in microscopic rhombohedra insoluble in cold acids.
    0
    0
  • It crystallizes in colourless cubes and volatilizes when heated very strongly.
    0
    0
  • Rubidium nitrate, RbNO 3, obtained by the action of nitric acid on the carbonate, crystallizes in needles or prisms and when strongly heated is transformed into a mixture of nitrite and oxide.
    0
    0
  • Chalcopyrite crystallizes in the tetragonal system with inclined hemihedrism, but the form is so nearly cubic that it was not recognized as tetragonal until accurate measurements were made in 1822.
    0
    0
  • It crystallizes in colourless plates and is readily soluble in alcohol, ether, &c., but not in water.
    0
    0
  • It crystallizes from alcohol in prisms, which are sparingly soluble in water.
    0
    0
  • It crystallizes in the cubic system, but the crystals are often flattened, elongated, rounded or otherwise distorted.
    0
    0
  • The chloride crystallizes in colourless rhombic tables of specific gravity 3.9 and is readily soluble in water, but is almost insoluble in concentrated hydrochloric acid and in absolute alcohol.
    0
    0
  • It crystallizes as BaBr 2.2H 2 O isomorphous with barium chloride.
    0
    0
  • It crystallizes in the monoclinic system, and separates from its aqueous solution as Ba(Br03)2.H20.
    0
    0
  • It crystallizes in monoclinic prisms of composition Ba(103) 2 H 2 O, and is only very sparingly soluble in cold water.
    0
    0
  • An alternative method is to dissolve sodium carbonate in lead-lined steamheated pans, and add the boric acid gradually; the solution then being concentrated until the borax crystallizes.
    0
    0
  • Borax crystallizes with ten molecules of water, the composition of the crystals being Na2B407+10H20.
    0
    0
  • Soc. Morphine, or morphia, crystallizes in prisms with one molecule of water; it is soluble in woo parts of cold water and in 160 of boiling water, and may be crystallized from alcohol; it is almost insoluble in ether and chloroform.
    0
    0
  • It crystallizes in shining rhombic prisms from its aqueous solution and as delicate needles from alcohol.
    0
    0
  • Haematite crystallizes in the rhombohedral system, and is isomorphous with corundum (Al203).
    0
    0
  • It crystallizes in long needles; forms salts C5H5N5.2HI and (C5H5N5)2.H2SO4.2H2O, and is converted by nitrous acid into hypoxanthine or 6-oxypurin.
    0
    0
  • It crystallizes in needles or prisms and volatilizes when heated, giving a pale yellow vapour.
    0
    0
  • It crystallizes in colourless needles.
    0
    0
  • It crystallizes readily from benzene or acetic acid and explodes when subjected to shock or when heated.
    0
    0
  • It crystallizes in tables and is very soluble in water.
    0
    0
  • It crystallizes in needles, possesses an alkaline reaction, and is readily decomposed by acids with liberation of selenium.
    0
    0
  • The sulphate of cinchonidine is more soluble than that of quinine; and, when 1 part of quinine sulphate suspected to contain it is nearly dissolved in 24 parts of boiling water, the sulphate of quinine crystallizes out on' cooling, and the cinchonidine is found in the clear mother liquor, from which it can be precipitated by a solution of potassium and sodium tartrate.
    0
    0
  • On boiling and filtering the product, zinc lactate crystallizes out of the solution.
    0
    0
  • Quartz crystallizes in the trapezohedral-hemihedral class of the rhombohedral division of the hexagonal system.
    0
    0
  • It crystallizes in large transparent cubes, but rapidly dissociates into its constituents on exposure.
    0
    0
  • It crystallizes in colourless cubes, is deliquescent, and often inflames spontaneously on exposure to air.
    0
    0
  • It crystallizes in white or pale fawn-coloured acicular prisms or silky needles, and is soluble in alcohol and ether, and in loo parts of cold and 3 of boiling water; it is without odour and has an astringent and an acid taste and reaction.
    0
    0
  • To all appearance it is there from the first in solution and gradually crystallizes out; and yet it is being continually modified as time goes on.
    0
    0
  • Diphenylfulven, from benzophenone and cyclo-pentadiene, crystallizes in deep red prisms. Dimethylfulven is an orangecoloured oil which oxidizes rapidly on exposure.
    0
    0
  • It crystallizes in colourless prisms and is optically active.
    0
    0
  • The main difficulty which the condenser ought to overcome and upon which its efficiency should depend is the removal of naphthalene; this compound, which is present in the gas, condenses on cooling to a solid which crystallizes out in the form of white flakes, and the trouble caused by pipe stoppages in the works as well as in the district supplied is very considerable.
    0
    0
  • After standing for twenty-four hours, hydroxylamine potassium disulphonate crystallizes out.
    0
    0
  • But the teaching of the Bible is not systematic, and the authority of consciousness is vague; while the creeds into which Church tradition crystallizes emerge out of long theological discussions.
    0
    0
  • It crystallizes in colourless prisms with one molecule of water, which redden on exposure.
    0
    0
  • It crystallizes in the orthorhombic system and is isomorphous with aragonite and witherite.
    0
    0
  • It crystallizes in yellow rhombic prisms, and is readily soluble in water, the solution having a bitter taste and an alkaline reaction.
    0
    0
  • In igneous rocks, the potassium-argon " clock " is set the moment the rock first crystallizes from magma.
    0
    0
  • Honey is always extracted when it is a clear solution, but it often crystallizes subsequently.
    0
    0
  • F. Magma is intruded into older rocks and crystallizes into a pink igneous rock called granophyre.
    0
    0
  • It crystallizes in yellow needles which sublime readily.
    0
    0
  • The free acid, which crystallizes in brilliant scales, is best prepared by decomposing the silver salt with an ethereal solution of hydrochloric acid.
    0
    0
  • Pure d-glucose, which may be obtained synthetically (see Sugar) or by adding crystallized cane sugar to a mixture of 80% alcohol and 115 volume of fuming hydrochloric acid so long as it dissolves on shaking, crystallizes from water or alcohol at ordinary temperatures in nodular masses, composed of minute six-sided plates, and containing one molecule of water of crystallization.
    0
    0
  • If it is evaporated slowly, anhydrous stannous oxide crystallizes out in forms which are combinations of the cube and dodecahedron.
    0
    0
  • It crystallizes in the cubic system, and well-developed crystals are of common occurrence; the usual form is the cube or the cubo-octahedron (fig.).
    0
    0
  • Arsenic possesses a steel-grey colour, and a decided metallic lustre; it crystallizes on sublimation and slow condensation in rhombohedra, isomorphous with those of antimony and tellurium.
    0
    0
  • When diamonds are formed, sometimes not all the carbon turns into stone or crystallizes.
    0
    0