it will have a theoretical maximum yield of 64.084g (2 moles) of CH3OH (molar mass = 32.042 g/mol), 52.075g (2 moles) of HCCH (molar mass = 26.037 g/mol), 127.912g (1 moles) of HI (molar mass = 127.912 g/mol) and 24.305g (1 moles) of Mg (molar mas...
This standard unit generally shows the amount of a chemical. It can be calculated using the molar concentration and the given volume of a chemical solution. The expression of the number of moles of a chemical is written as, Number of Mole=Molarity×Volume Answer and Exp...
The thermodynamic calculation also supports the occurrence of the redox reactions. The realization of our CO2-CH3OH cycle at NTP is strongly related to the reactions between catalyst and water (Equation 1), which are attributed to the low processing temperature for CuMnOS, the S6+ -O bond ...
To perform a stoichiometric calculation, enter an equation of a chemical reaction and press the Start button. The reactants and products, along with their coefficients will appear above. Enter any known value. The remaining values will automatically be calculated. Us...
The thermodynamic calculation aClseoOs2uipnpworattserthveapooccruartrheingche temperature of the redox reactions. and water T(Ehqeuraetailoizna t1i)o,nwohficohurarCeOat2t-rCibHu3tOedHtocytchlee at NTP is strongly related to the reactions low processing temperature for CuMnOS, between catalyst...
The stoichiometric mole ratio of FeSO4, H2O and CH3NH2 for a maximum theoretical yield is 1:4:2, which will yield Fe(OH)2, (NH4)2SO4 and CH3OH in a ratio of 1:4:2. If you combine 151.908g (or 1 moles) of FeSO4 (molar mass = 151.908 g...
If you combine 381.372g (or 1 moles) of Na2(B4O5(OH)4)*8H2O (molar mass = 381.372 g/mol), 98.078g (or 1 moles) of H2SO4 (molar mass = 98.078 g/mol) and 160.209g (or 5 moles) of CH3OH (molar mass = 32.042 g/mol) ...