Question

What’s the empirical formula of a molecule containing 18.7% lithium, 16.3% carbon, and 65.0% oxygen?

Answer 1

`"Li"_2"CO"_3`

Explanation:

Solution:

1) Assume `"100 g"` of the compound is present. `"100 g"` of this compound on decomposition gives me

• `"Li" => 18.7 %` or `"18.7 g"` of `"Li"`
• `"C" => 16.3 %` or `"16.3 g"` of `"C"`
• `"O" => 65.0%` or `"65 g"` of `"O"`

2) Calculate the number of moles of each element.

`"no. of moles" = "mass of the element"/"molar mass of the element"`

So

`"moles of Li" = "18.7 g" /"7 g mol"^(-1) = "2.6 moles"`

`"moles of C" = "16.3 g"/"12 g mol"^(-1) = "1.3 moles"`

`"moles of O" = "65 g"/"15.9 g mol"^(-1) = "4.0 moles"`

3) Divide by the lowest, seeking the smallest whole-number ratio:

`"Li: " "2.6 moles" /"1.3 moles" = 2`

`"C: " "1.3 moles"/"1.3 moles" =1`

`"O: " "4.0 moles"/"1.3 moles" = 3`

4 ) The empirical formula is `"Li"_2 "C"_1"O"_3`, or `"Li"_2"CO"_3`