Respuesta :
ANSWER
The volume of the gas is V2 is 38.1 liters
EXPLANATION
Given that;
[tex]\begin{gathered} \text{ The initial temperature of the balloon is 20}\degree C \\ \text{ The initial volume of the balloon is 5.0L} \\ \text{ The initial pressure of the balloon is 760 mmHg} \\ \text{ The final temperature of the balloon is - 50}\degree C \\ \text{ The final pressure of the balloon is 76 mmHg} \end{gathered}[/tex]To find the final volume of the balloon, follow the steps below
Step 1; Write the general gas law equation
[tex]\text{ }\frac{P1\text{ }\times\text{ V1}}{T1}\text{ }=\text{ }\frac{\text{ P2}\times\text{ V2}}{T2}[/tex]Step 2; Convert the temperature to kelvin
[tex]\begin{gathered} \text{ t1 }=\text{ 20}\degree C \\ \text{ T }=\text{ t }+\text{ 273.15} \\ \text{ T }=\text{ 20 + 273.15} \\ \text{ T = 293.15K} \\ \\ t2\text{ }=\text{ -50}\degree C \\ \text{ T = -50 + 273.15} \\ \text{ T}=\text{ 223.15K} \end{gathered}[/tex]Step 3; Substitute the given that into the formula given
[tex]\begin{gathered} \text{ }\frac{760\times5}{293.15}\text{ }=\text{ }\frac{76\text{ }\times\text{ V2}}{223.15} \\ \text{ cross multiply} \\ \text{ 760 }\times\text{ 5}\times\text{ 223.15 }=\text{ 76 }\times\text{ v2}\times\text{ 293.15} \\ \text{ 847970 }=\text{ 22, 279.4 }\times\text{ v2} \\ \text{ divide both sides by 22294} \\ \text{ }\frac{8479890}{222794}=\text{ }\frac{22294\text{ V2}}{22294} \\ \text{ v2 }=\text{ 38.1 Liters} \end{gathered}[/tex]Hence, the volume of the gas is V2 is 38.1 liters
