Question:
1 State what happens to the average kinetic energy of the gas molecules if the cabin
temperature decreases.
2 Show a numerical setup for calculating the pressure in the submarine cabin if the cabin
temperature changes to 293 K.
3 Determine the number of moles of CO₂(g) in the submarine cabin at which the air
becomes unsafe to breathe. The gram-formula mass of CO₂ is 44.0 g/mol.
4 Convert the original air pressure in the cabin of the submarine to atmospheres.
Answer:
1) The average kinetic energy of the gas molecules will decrease
2) P₂ = 293 K × 116 kPa/312 K = 108.94 kPa
3) 49 mols
4) 116 kPa = 1.145 atm
Explanation:
(1) When the cabin temperature decreases, the pressure within the cabin will decrease because the average kinetic energy of the gas molecules will decrease. That is the gas particles will have a lower speed.
(2) P₁V₁/T₁ = V₂P₂/T₂
Since the volume is constant we have
116 kPa/312 K = P₂/293 K
P₂ = 293 K × 116 kPa/312 K = 108.94 kPa
(3)
Since CO₂ is 44.0 g/mol, we have
2156/44 = 49 mols
(4) 1 atm = 101325 Pa
Therefore 116 kPa = 1/101325 ×116000 = 1.145 atm
Answer:
1) The average kinetic energy of the gas molecules will decrease
2) P₂ = 293 K × 116 kPa/312 K = 108.94 kPa
3) 49 mols
4) 116 kPa = 1.145 atm
Explanation:
