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Brown acetate

SYNS ACETATE of LIME BROWN ACETATE CALCIUM DIACETATE GRAY ACETATE LIME ACETATE LIME PYROLIGNITE SORBO-CALCIAN SORBO-CALCION TELTOZAN VINEGAR SALTS... [Pg.264]

Acetic acid can be produced by the enzyme-catalyzed oxidation of ethyl alcohol. The brown acetic acid in vinegar is produced from fruit juices (apple or grape juice) and is known as natural acetic acid. [Pg.129]

Synonyms CAS 62-54-4 ACETAXEOf lime brown acetate calcium diacetate gray acetate LIME ACETATE LIME PYROLIGNITE SORBO-CALOAN DIACETATE VINEGAR SALTS... [Pg.72]

Brophos A. See DEA-cetyl phosphate Brophos OL-2. See Oleth-2 phosphate Brophos OL-3. See Oleth-3 phosphate Brophos OL-3N. See DEA-oleth-3 phosphate Broprodifacoum. See Bromadiolone Brown M. See Direct brown 2 Brown acetate. See Calcium acetate Brown algae. See Algae, brown Brown copper oxide. See Copper oxide (ous) Brown HT... [Pg.570]

Calcium acetate (vinegar salts, gray acetate, lime acetate, and brown acetate) n. (CH3C00)2Ca-H20. A stabilizer. [Pg.147]

Aminoazobenzene is a very weak base, and consequently it will not form salts with weak organic acids, such as acetic acid, although it will do so with the strong mineral acids, such as hydrochloric acid. Aminoazobenzene is a yellowish-brown compound, whilst the hydrochloride is steel blue. The colour of the latter is presumably due to the addition of the proton to the phenyl-N-atom, the cation thus having benzenoid and quinonoid forms ... [Pg.208]

Sulphur. Moisten the centre of a filter-paper with lead acetate solution. Then add about 10 ml. of dilute hydrochloric acid to the residue in the evaporating-basin, and at once cover the latter with the paper. If zinc sulphide is present in the residue, the hydrogen sulphide evolved will give a definite daA brown coloration with the lead acetate paper. The presence of hydrogen sulphide can often be confirmed by its odour. [Pg.327]

Alternatively, treat a solution of 3 9 g. of the 6is-diazo ketone in 50 ml. of warm dioxan with 15 ml. of 20 per cent, aqueous ammonia and 3 ml. of 10 per cent, aqueous silver nitrate under reflux in a 250 or 500 ml. flask on a water bath. Nitrogen is gently evolved for a few minutes, followed by a violent reaction and the production of a dark brown and opaque mixture. Continue the heating for 30 minutes on the water bath and filter hot the diamide of decane-1 lO dicarboxyhc acid is deposited on cooling. Filter this off and dry the yield is 3 -1 g., m.p. 182-184°, raised to 184-185° after recrystallisation from 25 per cent, aqueous acetic add. Hydrolyse the diamide (1 mol) by refluxing for 2-5 hours with 3N potassium hydroxide (4 mols) acidify and recrystaUise the acid from 20 per cent, acetic acid. The yield of decane-1 10-dicarboxyhc acid, m.p. 127-128°, is almost quantitative. [Pg.905]

In a 1 litre round-bottomed flask, equipped with an air condenser, place a mixture of 44 g. of o-chlorobenzoic acid (Section IV,157) (1), 156 g. (153 ml.) of redistilled aniline, 41 g. of anhydrous potassium carbonate and 1 g. of cupric oxide. Reflux the mixture in an oil bath for 2 hours. Allow to cool. Remove the excess of aniline by steam distillation and add 20 g. of decolourising carbon to the brown residual solution. Boil the mixture for 15 minutes, and filter at the pump. Add the filtrate with stirring to a mixture of 30 ml. of concentrated hydrochloric acid and 60 ml. of water, and allow to cool. Filter off the precipitated acid with suction, and dry to constant weight upon filter paper in the air. The yield of iV-phenylanthranilic acid, m.p. 181-182° (capillary tube placed in preheated bath at 170°), is 50 g. This acid is pure enough for most purposes. It may be recrystaUised as follows dissolve 5 g. of the acid in either 25 ml. of alcohol or in 10 ml. of acetic acid, and add 5 ml. of hot water m.p. 182-183°. [Pg.991]

Diborane or aUcylboranes are used for reduaion of alkenes and alkynes via hydrobora-tion (see pp. 37f., 47f., 130f.) followed by hydrolysis of the borane with acetic acid (H.C. Brown, 1975). [Pg.96]

The brown crystalline manganese(III) acetate dihydrate is of considerable commercial importance because it is often used as the source material for other trivalent manganese compounds. It can be made by oxidation of manganese(II) acetate using chlorine or potassium permanganate, or by reaction of manganese(II) nitrate and acetic anhydride. [Pg.507]

A (4-Hydroxyphenyl)glycine. This derivative (23) forms aggregate spheres or shiny leaflets from water. It turns brown at 200°C, begins to melt at 220°C, and melts completely with decomposition at 245 —247°C. The compound is soluble in alkaU and mineral acid and sparingly soluble in water, glacial acetic acid, ethyl acetate, ethanol, diethyl ether, acetone, chloroform, and benzene. [Pg.316]

Identification. When a solution of ferric chloride is added to a cold, saturated vanillin solution, a blue color appears that changes to brown upon warming to 20°C for a few minutes. On cooling, a white to off-white precipitate (dehydrodivanillin) of silky needles is formed. Vanillin can also be identified by the white to slightly yellow precipitate formed by the addition of lead acetate to a cold aqueous solution of vanillin. [Pg.401]


See other pages where Brown acetate is mentioned: [Pg.1057]    [Pg.1356]    [Pg.2971]    [Pg.1551]    [Pg.1057]    [Pg.102]    [Pg.830]    [Pg.830]    [Pg.1356]    [Pg.1356]    [Pg.668]    [Pg.824]    [Pg.909]    [Pg.1057]    [Pg.1356]    [Pg.2971]    [Pg.1551]    [Pg.1057]    [Pg.102]    [Pg.830]    [Pg.830]    [Pg.1356]    [Pg.1356]    [Pg.668]    [Pg.824]    [Pg.909]    [Pg.10]    [Pg.142]    [Pg.266]    [Pg.267]    [Pg.348]    [Pg.456]    [Pg.516]    [Pg.523]    [Pg.178]    [Pg.588]    [Pg.638]    [Pg.668]    [Pg.701]    [Pg.863]    [Pg.77]    [Pg.201]    [Pg.206]    [Pg.27]    [Pg.433]    [Pg.506]    [Pg.312]    [Pg.49]    [Pg.463]   
See also in sourсe #XX -- [ Pg.72 ]




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