Russian Journal of Inorganic Chemistry, Tập 10,Phần 1British Library Lending Division with the cooperation of the Royal Society of Chemistry, 1965 |
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Trang 85
... ammonia . This approach did not make it possible to determine the influence of the original concentrations and molar ratios of the reacting substances on the degree of precipitation of zinc and on the composition of the precipitates ...
... ammonia . This approach did not make it possible to determine the influence of the original concentrations and molar ratios of the reacting substances on the degree of precipitation of zinc and on the composition of the precipitates ...
Trang 87
... ammonia which can be titrated increases up to N = 2. At N = 2 the relative quantity of free ammonia decreases with decrease in the zinc bromide concentration in the original mixture to 0.25 M ZnBr , and then increases with dilution of ...
... ammonia which can be titrated increases up to N = 2. At N = 2 the relative quantity of free ammonia decreases with decrease in the zinc bromide concentration in the original mixture to 0.25 M ZnBr , and then increases with dilution of ...
Trang 695
... ammonia , or on standing in a large excess of it in the cold , they decompose completely . In an atmosphere of gaseous ammonia they did not add on the ammonia lost earlier . Both the diammine and hexammine complexes decompose on heating .
... ammonia , or on standing in a large excess of it in the cold , they decompose completely . In an atmosphere of gaseous ammonia they did not add on the ammonia lost earlier . Both the diammine and hexammine complexes decompose on heating .
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absorption spectra acid Akad alkali aluminium ammonia ammonium analysis aqueous solutions atoms band beryllium beryllium chloride bromide caesium calculated carbonate cation cerium cerium(IV Chem chemical chloride chromium(III cm-¹ coefficient composition compounds concentration constant crystallisation crystals curve decomposition density determined diagram dissociation EDPA equilibrium experimental extraction fluoride formed gallium H₂O heat capacity hexaborides hydrates hydrochloric acid hydrogen hydrolysis hydroxide increase indium infrared Inorg ionic strength iron(III isotherms K₁ kcal Khim lanthanum ligands liquid lithium melting metal methanol method mixture molar mole molecules Nauk SSSR Neorg niobium nitrate obtained oxalic oxalic acid oxide perchlorate perrhenate phosphate platinum(II plexes potassium precipitate prepared ratio reaction rhenium rubidium Russ ruthenium salicylaldehyde salts samarium shows sodium solid phase solu solubility solvents specimens studied sulphate sulphur Table temperature thallium thermal thermograms thiourea tion values X-ray yttrium Zhur zinc zinc bromide zirconium