Ferrous acetate iodid

Dibromo adducts have been used for many years for purifying olefins. Reduction with zinc or iodide has been the traditional way of regenerating the olefin, although occasionally other reagents, ferrous chloride, for example, have been employed. Zinc is usually effective and may be used in acetic acid in favorable cases. Milder conditions are necessary if sensitive groups are present (ref. 185, p. 51). A well known application of the protective function... [Pg.338]

A number of methods have been proposed for the detection of rancidity. The determination of active oxygen consists of dissolving the fat in a suitable medium such as chloroform and acetic acid, adding potassium iodide, and titrating the liberated iodine with a standard thiosulfate solution (16, 20). This is perhaps the most widely used method at the present time. Another procedure which has been proposed for the detection of peroxides employs ferrous ammonium sulfate and ammonium thiocyanate in acetone. The resulting red color of ferric thiocyanate is measured spectrophotometrically, and is said by the authors to yield more reproducible results than do the usual titration methods (21). [Pg.56]

Synonym Ammonia Water Amfbnioformaldehyde Ammonium Acetate Ammonium Acid Fluoride Ammonium Amidosulfonate Ammonium Amidosulphate Ammonium Benzoate Ammonium Bicarbonate Ammonium Bichromate Ammonium Bifluoride Ammonium Carbonate Ammonium Chloride Ammonium Citrate Ammonium Citrate, Dibasic Ammonium Decaborate Octahydrate Ammonium Dichromate Ammonium Disulfate-Nickelate (II) Ammonium Ferric Citrate Ammonium Ferric Oxalate Trihydrate Ammonium Ferrous Sulfate Ammonium Fluoride Ammonium Fluosilicate Ammonium Formate Ammonium Gluconate Ammonium Hydrogen Carbonate Ammonium Hydrogen Fluoride Ammonium Hydrogen Sulfide Solution Ammonium Hydroxide Ammonium Hypo Ammonium Hyposulfite Ammonium Iodide Ammonium Iron Sulfate Ammonium Lactate Ammonium Lactate Syrup Ammonium Lauryl Sulfate Ammonium Molybdate Ammonium Muriate Ammonium Nickel Sulfate Ammonium Nitrate Ammonium Nitrate-Urea Solution Ammonium Oleate... [Pg.21]

Oxides and peroxides can occur in many essential oils by a photochemical reaction. 1,8-Cineol and linalool monoxide can be readily separated on silica gel thin layers with 1-nitropropane-hexane (1 1, v/v), as the mobile phase.In this case, they have exhibited Rf values of 73 and 8, respectively. " Another pair of compounds, ascaridole and 1,8-cineol, can be easily separated on a silica gel layer, obtaining a value for chloroform as the mobile phase of 63 and 54, respectively. The antimony chloride reagent gives a gray color. The potassium iodide-acetic acid-starch test is usually better than ferrous thiocyanate. [Pg.157]

Peroxides can be reduced by excess iodide ion in acetic acid or isopropanol solvents, and the liberated iodine may be titrated with standard thiosulfate solution. Iodide ion, titanium(IV), ferrous ion, and N,N-dimethyl-p-phenylenediamine are some of the reducing reagents used for colorimetric analyses for trace peroxides. [Pg.721]

Ingredients Calcium Carbonate, Microcrystalline Cellulose, Magnesium Oxide, Ferrous Fumarate, Ascorbic Acid, Maltodextrin, Gelatin, dl-Alpha-Tocopheryl Acetate, Dicalcium Phosphate Less than 2% of Beta-Carotene, Biotin, Cholecalciferol, Croscarmellose Sodium, Cupric Oxide, Cyanocobalamin, D-Calcium Pantothenate, FD C Red 40 Dye, FD C Red 40 Lake, FD C Yellow 6 Lake, Folic Acid, Hydroxypropyl Methylcellulose, Niacinamide, Polyethylene Glycol, Polysorbate 80, Potassium Iodide, Pyridoxine Flydrochloride, Riboflavin, Silicon Dioxide, Soybean Oil, Starch, Stearic Acid, Thiamine Mononitrate, Titanium Dioxide (color), Vitamin A Acetate, Zinc Oxide... [Pg.144]

Calcium D-pantothenate Cholecalciferol Choline chloride Copper carbonate (ic) Cupric sulfate pentahydrate Ferrous fumarate Magnesium gluconate Magnesium sulfate anhydrous Manganese carbonate Manganese oxide (ous) Manganese sulfate (ous) Menadione DL-Methionine L-Methionine MSG Niacinamide D-Panthenol Potassium iodide Retinol Tocopherol D-a-Tocopherol DL-a-Tocopherol d-o-Tocopheryl acetate animal feed ingredient Casein Com (Zea mays) meal Lactose Sodium sulfate Whey animal feed supplement Ammonium acetate Ammonium perchlorate Calcium phosphate monobasic anhydrous Calcium pyrophosphate Cobalt phosphate (ous)... [Pg.4813]

Copper hydroxide (ic) Copper iodide (ous) Cupric sulfate anhydrous Ferric chloride Ferric chloride hexahydrate Ferrous sulfate anhydrous L-Glutamine Griseofulvin L-Histidine Iodine Iron ammonium citrate Manganese acetate (ous) Manganese chloride (ous), tetrahydrate Manganese citrate (ous) Phenothiazine... [Pg.5238]

Oxides and peroxides can be visualised with the usual reagents (Nos. 11, 15, 18) or with an acidic p-dimethylaminobenzaldehyde solution (No. 70). The iodide-acetic acid-starch test (Rgt. No. 139) has usually been better than the ferrous thiocyanate reagent (No. 115) as a more specific test for peroxides (cf. also Knappe and Peteri [133]). [Pg.214]

Copper sulfate Ferric chloride 50% aq. sol n Ferrous chloride 50% aq. sol n Lithium chloride >30% aq. sol n Mercuric chloride sat d aq. sol n Potassium acetate sat d aq. sol n Potassium carbonate Potassium chromate sat d aq. sol n Potassium iodide... [Pg.190]