Empirical (and molecular) formula can also be calculated from experimental data. This is how its done...
- List all the elements in the compound
- Underneath, write their experimental masses or percentages
- Divide each mass by the Ar (relative atomic mass) of that particular element
- Turn the numbers into a ratio
- Simplify the ratio
For example: In an experiment, some iron oxide powder is reduced to pure metallic iron. Use the following experimental data to find the empirical formula of the iron oxide used.
Mass of empty container = 32.0g
Mass of container + mass of iron oxide = 96.0g
Mass of container + iron = 76.8g
METHOD -
During this experiment, oxygen is lost. To find the mass of oxygen lost, minus the 'mass of container + iron' from 'mass of container + mass of iron oxide'...
96 - 76.8 = 19.2g
The mass of iron made is 'mass of container + iron' minus 'mass of container'...
76.8 - 32 = 44.8g
Now, list the elements in iron oxide...
Fe O
write their experimental masses
44.8 19.2
divide by their Ar
44.8 / 56 = 0.8 19.2 / 16 = 1.2
multiply by 10 to put into ratio
8 : 12
cancel down
2 : 3
This means that the simplest formula is 2 Fe atoms to every 3 O atoms, so the empirical formula is Fe2O3
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