Answer:
See explanation below
Explanation:
First, we need to write the overall reaction here which is the following:
2LiOH + CO₂ -------> Li₂CO₃ + H₂O
Now that we have the reaction, let's see the theorical yield. This can be calculated using the initial mass of LiOH and COâ‚‚. From here, we can calculate the moles, and then, see which is the limiting reactant to calculate the moles of the products formed, and then, the final mass, which would be the theorical yield.
So, let's calculate the moles of each reactant, using the molar masses.
MM LiOH = 23.95 g/mol
MM COâ‚‚ = 44 g/mol
The number of moles of each reactant would be:
mol LiOH = 1000 g / 23.95 = 41.75 moles
mol COâ‚‚ = 880 / 44 = 20 moles
We have the moles, let's see who is the limiting reactant:
IF: Â Â Â Â 2 moles LiOH --------> 1 mol COâ‚‚
Then: Â 41.75 moles -----------> X
X = 41.75 * 1 / 2 = 20.88 moles of COâ‚‚
However we only have 20 moles of COâ‚‚, therefore, the COâ‚‚ is the limiting reactant.
Now that we know this, let's see how many moles of water and Li₂CO₃ will be produced:
moles CO₂ = moles H₂O = moles Li₂CO₃ = 20 moles
So, we can calculate the mass of both of them, using the molar masses:
MM Li₂CO₃ = 73.89 g/mol
m Li₂CO₃ = 20 * 73.89 =1477.8 g
MM Hâ‚‚O = 18 g/mol
m Hâ‚‚O = 20 * 18 = 360 g
In other words, the theorical yield of water for this reaction is 360 g and for Li₂CO₃ is 1477.8 g (rounded to 1478 g).
Now, with this we can calculate the percent yield:
% = 325 / 360 * 100
% = 90.28%
