Respuesta :
According to Charle's Law,
V/T = constant
where
V = volume
T = absolute temperature.
The law holds when the pressure of an ideal gas is held constant while temperature changes.
V₁ = 2.33 L, initial volume
T₁ = 30°C = 30+273 K = 303 K, initial temperature
T₂ = 300°C = 300+273 K = 573 K, final temperature
The final volume, V₂, is given by
V₂/T₂ = V₁/T₁
V₂ = (573 K)*(2.33/303 L/K)
= 4.406 L
Answer: 4.41 L
V/T = constant
where
V = volume
T = absolute temperature.
The law holds when the pressure of an ideal gas is held constant while temperature changes.
V₁ = 2.33 L, initial volume
T₁ = 30°C = 30+273 K = 303 K, initial temperature
T₂ = 300°C = 300+273 K = 573 K, final temperature
The final volume, V₂, is given by
V₂/T₂ = V₁/T₁
V₂ = (573 K)*(2.33/303 L/K)
= 4.406 L
Answer: 4.41 L
The gas will expand to the final volume of 4.406 L.
According to Charles law, on heating a gas, the ratio of Volume to temperature remains constant.
[tex]\rm \dfrac{V_2}{T_2}\;=\;\dfrac{V_1}{T_1}[/tex]
where V1 and T1 are initials
V2 and T2 are final.
So, final volume = [tex]\rm \dfrac{V_1\;\times\;T_2}{T_1}[/tex]
Final volume = [tex]\rm \dfrac{573\;K\;\times\;2.33\;L}{303\;K}[/tex]
Final volume = 4.406 L.
The gas will expand to the final volume of 4.406 L.
For more information about the gas expansion, refer to the link:
https://brainly.com/question/21216198?referrer=searchResults
