Stoichiometry

To ensure the afformentioned law, the mass of each reactant must be equal to its product.

The molar mass of reactants used to manufacture a compound can be summed to an estimated molar mass of the compound.

1. Find the mole ratio of the formula
2. Multiply the given amount of molecule with the mole ratio.

1. Find the mole ratio of the formula
2. Multiply the given amount of molecule with the mole ratio.
3. Multiply the result by the molar mass of oxygen

1. Divide the given mass by the molar mass of the given.
2. Multiply the result by the mole ratio

1. Divide the given mass by its molar mass
2. Multiply the result by the ratio
3. Multiply the result by the molar mass of the expected compound/element

A percent yield is determined by the limiting reactant in your calculations. The actual yield is given via problem, it can be reffered to as "experimental yield". \(Yield=100\frac{actual}{theoratical}\)

For \(G\) as the given, and \(GM\) as the given mass, and \(MR\) as the mole ratio and \(MM\) as the molar mass.

1. Mol(A) -> Mol(B)
   • \(G \times MR\)
2. Mol(A) -> Mass(B)
   • \(G_{A} \times MR \times MM_{B}\)
3. Mass(A) -> Mol(B)
   • \(\frac{G_{A}}{MM_{A}} \times MR\)
4. Mass(A) -> Mass(B)
   • \(\frac{GM_{A}}{MM_{A}} \times MR \times MM_{B}\)