The stoichiometric mole ratio of H2SO4 for a maximum theoretical yield is 2, which will yield SO2, H2O and O2 in a ratio of 2:2:2. If you combine98.078g (or1moles) ofH2SO4(molar mass = 98.078 g/mol) it will have
theoretical maximum yield of 249.924g (0.625 moles) of Fe2(SO4)3 (molar mass = 399.878 g/mol), 21.782g (0.125 moles) of K2SO4 (molar mass = 174.259 g/mol), 37.75g (0.25 moles) of MnSO4 (molar mass = 151.001 g/mol) and 18.015g (1 moles) ...
Calculate: (A) Mass % H_2SO_4(m/m) (B) Mass % H_2O(m/m) (C) Molarity (D) Molality How many mL of a 9.0 M H2SO4 solution are needed to make 0.45 L of a 3.5 M solution? (a) Given that the molar mass of H_2SO_4 is 98.1 grams, determine the number of...
Re: Stoichiometry calculation including 3.00M H2SO4 and 23.2 wt% Ba(NO3)2 « Reply #1 on: September 08, 2008, 01:14:42 AM » Just calculate mass of pure Ba(NO3)3, then moles and do stoichiometry of precipitation reaction (balance it) using moles of salt and molar concentration of...
theoretical maximum yield of 249.924g (0.625 moles) of Fe2(SO4)3 (molar mass = 399.878 g/mol), 37.75g (0.25 moles) of MnSO4 (molar mass = 151.001 g/mol), 21.782g (0.125 moles) of K2SO4 (molar mass = 174.259 g/mol) and 18.015g (1 moles) ...
yield of 1876.345g (1 moles) of (NH4)3(P(Mo3O10)4) (molar mass = 1876.345 g/mol), 1387.465g (10.5 moles) of (NH4)2SO4 (molar mass = 132.14 g/mol), 216.183g (12 moles) of H2O (molar mass = 18.015 g/mol) and...
1:1, which will yield H2SO4 in a ratio of 1. If you combine178.142g (or1moles) ofH2S2O7(molar mass = 178.142 g/mol) and18.015g (or1moles) ofH2O(molar mass = 18.015 g/mol) it will have a theoretical maximum yield of196.157g (2moles) ofH2SO4(molar mass = 98.078 g/mol)....
If you combine 90.035g (or 1 moles) of H2C2O4 (molar mass = 90.035 g/mol), 63.214g (or 0.4 moles) of KMnO4 (molar mass = 158.034 g/mol) and 58.847g (or 0.6 moles) of H2SO4 (molar mass = 98.078 g/mol) it will have a theoretical maximum ...
If you combine 178.142g (or 1 moles) of H2SO4SO3 (molar mass = 178.142 g/mol) and 18.015g (or 1 moles) of H2O (molar mass = 18.015 g/mol) it will have a theoretical maximum yield of 196.157g (2 moles) of H2SO4 (molar mass = 98.078 g/mol). ...
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. Use uppercase ...