The balanced equation for this reaction is:
`~CH_4` + `~2O_2` -> `~CO_2 ` + `~2H_2O`
Given Amount
The given amount is: 150 L `~CO_2` .``
Conversion Factors
We will need to use the following mole conversion factors to solve this problem.
1 mole = 22.4 L `~CO_2`
1 mole = *molar mass = 16.042 g `~CH_4`
*The molar mass is calculated by multiplying the atomic mass of each element in the compound by its subscript and adding the resulting products together.
Mole Ratio
We will also need the mole ratio between `~CO_2` and `~CH_4` . A mole ratio is the ratio between the coefficients of two substances in a chemical reaction.
The coefficient of `~CO_2` is 1.
The coefficient of `~CH_4` is 1.
Therefore, the mole ratio is: 1 mole `~CO_2` = 1 mole `~CH_4`
Stoichiometry Calculation
The calculation will take the general form:
given amount x conversion factor x mole ratio x conversion factor
Therefore,
150 L `~CO_2` x (1 mole/22.4 L) x (1 mol `~CH_4` /1 mol `~CO_2` ) x (16.042 g/1 mole)
= 107 g `~CH_4`
Notice that the conversion factors and mole ratio are oriented such that all units cancel out except for the final unit of grams.
No comments:
Post a Comment