Finally, add together the total mass of each element to get the molar mass of Cu3(PO4)2*3H2O: 190.638 g/mol + 61.947524 g/mol + 175.9934 g/mol + 6.04764 g/mol =434.626564 g/mol 5. Find Mole Fraction To find the mole fraction and percentage of each element in Cu3(PO4)2*3H2O...
Cupric Phosphate - Cu3(PO4)2 Cu3(PO4)2 Molar Mass Cu3(PO4)2 Oxidation Number Water - H2O Hydroxic Acid H₂O [Oh2] Aqua Pure Water Hydrogen Oxide Oxidane Dihydrogen Oxide H2O Molar Mass H2O Oxidation Number Ammonia - NH3 Nitrogen Hydride Hydrogen Nitride Nh...
碱式碳酸铜 元素 质量百分比銅127.092g銅127.092g氧79.997g氧79.997g碳12.0107g碳12.0107g氫2.0159g氫2.0159gCu2(CO3)(OH)2 原子#氧5氧5銅2銅2氫2氫2碳1碳1 🛠️ 计算摩尔质量 指令 这个程序决定一种物质的分子量。输入物质的分子式,它将计算出元素的组合物和质量的化合物中的每个元素的总质量。
distributed throughout the whole structure (Fig.1c). The uniform distribution of Cu sites and Co3O4species constituted the adjacent catalytic centers. The metal content of Cu and Co in Co3O4/Cu1-N-C were determined to be 0.60 wt% and 4.70 wt%, respectively, by inductively coupled...
56], the relationship between pressure and melting point is as follows:(3)dTmdP=Tm(VL−VS)Qmwhere Tm is the melting point; P is pressure; VL and VS are the molar volumes of the liquid phase and solid phase of material; Qm is the fusion latent heat of the materials per unit mass....
(SEM) JEOL-JSM-5300 High Resolution Transmis- sion Electron Microscope (HR-TEM) JEOL- JSM X-ray diffraction (XRD) JED-2300 T model Thermal gravimetric analysis (TGA) Linseis STA PT1000 Molar mass (g/mol) 12.01 158.03 166.13 73.09 270.3 241.60 216.12 143.94 100.11 242.28 98.07 40.00 ...
Cu3PO4的摩尔质量和分子量为{1,数字}。 由Cu3PO4组成 元素标志原子质量原子#质量百分比 銅Cu190.638 g/mol366.7478% 磷P30.9738 g/mol110.8448% 氧O63.9976 g/mol422.4074% 元素- 质量百分比銅190.638g銅190.638g氧63.9976g氧63.9976g磷30.9738g磷30.9738g ...
(Cu)3(PO4)2的摩尔质量和分子量为{1,数字}。 由磷酸铜- (Cu)3(PO4)2组成 元素标志原子质量原子#质量百分比 銅Cu190.638 g/mol350.0913% 磷P61.9475 g/mol216.2771% 氧O127.9952 g/mol833.6316% 磷酸铜 元素 质量百分比銅190.638g銅190.638g氧127.995g氧127.995g磷61.9475g磷61.9475g(Cu)3(PO4)2 原子#...
Molar Mass (g/mol) Cu(Copper)63.546 P(Phosphorus)30.973762 O(Oxygen)15.9994 3. Compute Mass of Each Element Multiply the number of atoms by the atomic weight of each element found in steps 1 and 2 to get the mass of each element in Cu3(PO4)3: ...
The stoichiometric mole ratio of Cu(NO3)2, FeSO4 and H2SO4 for a maximum theoretical yield is 1:6:4, which will yield Fe2(SO4)3, Cu(SO4), H2O and NO in a ratio of 1:6:4:3. If you combine 187.556g (or 1 moles) of Cu(NO3)2 (...