Russian Journal of Inorganic Chemistry, Tập 4,Trang 659-1328Chemical Society., 1959 |
Từ bên trong sách
Kết quả 1-3 trong 78
Trang 670
... constant quoted above . With increasing hydrogen content , the lattice constant gradually decreased , reaching a = 5.540+ 0.003 Å at CeH2.47 . Specimens with higher hydrogen content were not obtained . Up to CeH2 , the presence of two ...
... constant quoted above . With increasing hydrogen content , the lattice constant gradually decreased , reaching a = 5.540+ 0.003 Å at CeH2.47 . Specimens with higher hydrogen content were not obtained . Up to CeH2 , the presence of two ...
Trang 1027
... constant obtained by the second version of the method is more accurate ; these reasons , which also explain the anomalous " change " in the instability constant ( Table 1 , systems 1a and 1b ) , will form the subject of subsequent ...
... constant obtained by the second version of the method is more accurate ; these reasons , which also explain the anomalous " change " in the instability constant ( Table 1 , systems 1a and 1b ) , will form the subject of subsequent ...
Trang 1212
... constant of the compound , calculated from equation ( 34 ) , which has been obtained from equation ( 32 ) by replacing the formation constant Kis by its reciprocal ( the instability constant Kinstab ) and rearranging : Ainstab K2K ÷ Ph ...
... constant of the compound , calculated from equation ( 34 ) , which has been obtained from equation ( 32 ) by replacing the formation constant Kis by its reciprocal ( the instability constant Kinstab ) and rearranging : Ainstab K2K ÷ Ph ...
Ấn bản in khác - Xem tất cả
Thuật ngữ và cụm từ thông dụng
2H₂O absorption acetone acid Akad AlBr alcohol alkali alloys aluminium Amer ammonium analysis anion annealed anorg aqueous solutions atoms beryllium calculated carbonate cation cerium Chem Chemistry chloride coefficient complex compounds composition concentration conductance containing coprecipitation corresponding crystallisation crystals curve decomposition determined diagram dioxan electrons equation equilibrium ethanol ether eutectic experimental formation formed glaserite H₂O heating HNO3 hydration hydrogen hydroxide increase indium instability constants ionic ions isotherms Khim lattice ligands liquid melting metal method mixture molal molar mole molecules Moscow Na₂SO NaCl NaOH Nauk SSSR Neorg Obshch obtained oxalate oxide platinum potassium precipitate prepared pyridine ratio reaction ruthenium salt saturated sections shows sodium solid phase solid solutions solu solubility solvent stability structure studied sulphate Table temperature thermal Thermogram thorium tion trans effect uranyl nitrate values vapour pressure X-ray yield Zhur