At 0 degree celcius the density of a gaseous oxide at 2 bar is the same as that of nitrogen at 5 bar what is the molecular mass of the oxide
Answers
Answered by
15
I hope the answer is 3
Rishabh7020:
sorry
70 gram
Answer
Using the relationship of density (ρ) of the substance at temperature (T)
We have ρ = Mp/RT
or p = ρ RT/ M
For the given data if M is the molar mass of the gaseous oxide, we have
2 = ρ RT/ M ……………(1)
Also for nitrogen 5 = ρ RT/28 ………………….(2)
From (1) & (2), we have
5/2 = M/28
Or
M = 5 X 28/ 2 = 70g/mol
Hence, the molecular mass of the oxide is 70 g/mol.
Using the relationship of density (ρ) of the substance at temperature (T)
We have ρ = Mp/RT
or p = ρ RT/ M
For the given data if M is the molar mass of the gaseous oxide, we have
2 = ρ RT/ M ……………(1)
Also for nitrogen 5 = ρ RT/28 ………………….(2)
From (1) & (2), we have
5/2 = M/28
Or
M = 5 X 28/ 2 = 70g/mol
Hence, the molecular mass of the oxide is 70 g/mol.
by mistake
Answered by
66
Answer
Using the relationship of density (ρ) of the substance at temperature (T)
We have ρ = Mp/RT
or p = ρ RT/ M
For the given data if M is the molar mass of the gaseous oxide, we have
2 = ρ RT/ M ……………(1)
Also for nitrogen 5 = ρ RT/28 ………………….(2)
From (1) & (2), we have
5/2 = M/28
Or
M = 5 X 28/ 2 = 70g/mol
Hence, the molecular mass of the oxide is 70 g/mol.
Hope this helped you.
Using the relationship of density (ρ) of the substance at temperature (T)
We have ρ = Mp/RT
or p = ρ RT/ M
For the given data if M is the molar mass of the gaseous oxide, we have
2 = ρ RT/ M ……………(1)
Also for nitrogen 5 = ρ RT/28 ………………….(2)
From (1) & (2), we have
5/2 = M/28
Or
M = 5 X 28/ 2 = 70g/mol
Hence, the molecular mass of the oxide is 70 g/mol.
Hope this helped you.
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