Now, let's pull out the mole map
We're going to try some harder conversions: by including Molarity conversions and Molar Volume.
So, as we all remember, molarity is the molar concentration. The formula is M = mol/V
Let's try an example:
We have a chemical equation of
NaCl + CaO ---> Na2O + CaCl2
and we have 120 mL of a 0.300 M solution of NaCl. How many grams of CaCl2 are produced?
First, we balance:
2 NaCl + CaO ---> Na2O + CaCl2
Then, we figure out how many moles of NaCl there are, based on the information given:
M = mol/V ---> mol = MV
mol NaCl = (0.120)*(0.300) = 0.0360 mol NaCl
0.0360 mol NaCl X 1 mol CaCl2 X 111.1g = 1.9998 (2 SF = 2.0g CaCl2)
2 mol NaCl 1 mol CaCl2
This answer tells us that 2.0 g of CaCl2 is produced when 120 mL of 0.300 M solution of NaCl reacts with sufficient CaO.
Now, we can also add on Molar Volume calculations.
Recall that there are 22.4L per mole in STP conditions (Standard temperature and pressure)
Let's try another example:
We have the chemical reaction: Li2O + MgCl2 ---> LiCl + MgO
How many grams of Li2O will produce 9.0 L of MgO at STP?
First, we balance:
Li2O + MgCl2 ---> 2 LiCl + MgO
Now, we convert:
9.0L MgO X 1 mol MgO X 1 mol Li2O X 29.8g = 11.97 (2 SF = 12 g)
22.4 L 1 mol MgO 1 mol Li2O
So this means that 12 g of Li2O reacts with sufficient MgCl2 in order to produce 9.0 L of MgO
Now, here are some problems, as well as a video:
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