- #1
Mathman23
- 248
- 0
Hi
I have this reaction formula
[itex] CH_{4} + 2O_{2} \rightarrow 2H_{2} O + CO_{2} [/itex]
CH4 and O2 are contained in a canister which has a volume V = 500 Liters.
The mass of CH4 is 100 grams and O2 has a mass of 100 grams.
I have two questions:
First if I want to calculate the mass of the generated [itex]CO_2[/itex].
Can't this be done by the following calculation
[itex] n(CH_4) = n(CO_2) \ \rightarrow \ n(CO_2) = \frac{m(CH_4)}{M(CH_4)} = ?? [/itex]
And then multiply it with [itex]M(CO_2)[/itex] ??
Second: if the temperature in the canister is messured to be 105 degrees celsius at the end of the above reaction. How do I calculate the partial pressure of [itex]CH_{4}[/itex] at this temperature ??
Many Thanks in advance :)
Sincerely Fred
Denmark
I have this reaction formula
[itex] CH_{4} + 2O_{2} \rightarrow 2H_{2} O + CO_{2} [/itex]
CH4 and O2 are contained in a canister which has a volume V = 500 Liters.
The mass of CH4 is 100 grams and O2 has a mass of 100 grams.
I have two questions:
First if I want to calculate the mass of the generated [itex]CO_2[/itex].
Can't this be done by the following calculation
[itex] n(CH_4) = n(CO_2) \ \rightarrow \ n(CO_2) = \frac{m(CH_4)}{M(CH_4)} = ?? [/itex]
And then multiply it with [itex]M(CO_2)[/itex] ??
Second: if the temperature in the canister is messured to be 105 degrees celsius at the end of the above reaction. How do I calculate the partial pressure of [itex]CH_{4}[/itex] at this temperature ??
Many Thanks in advance :)
Sincerely Fred
Denmark
Last edited: