A gas that exerts a pressure of psi in a container with a volume of 12.45 L will exert a pressure of 1112 psi when transferred to a container with a volume of 6.531 L. (Solve the )

Here, we may apply Boyle's law, which is mathematically expressed as:
PV = constant
So, we equate the product of the the initial pressure and volume to the product of the final pressure and volume as such:
P * 12.45 = 1112 * 6.53
P = (1112 * 6.53) / 12.45
P = 583.2 PSI

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IlaMends IlaMends · Answer 2 · 2019-05-13T13:30:44+02:00

Answer:

A gas that exerts a pressure of 583.33 psi. psi in a container with a volume of 12.45 L will exert a pressure of 1112 psi when transferred to a container with a volume of 6.531 L.

Explanation:

Initial pressure exerted by the gas = [tex]P_1[/tex]

Initial volume occupied by the gas = [tex]V_1=12.45 L[/tex]

Final pressure exerted by the gas = [tex]P_2=1112 psi[/tex]

Final volume of the gas occupied by the gas = [tex]V_2=6.531 L[/tex]

Applying Boyle's law:

[tex]P_1\times V_1=P_2\times V_2[/tex]

[tex]P_1=\frac{P_2\times V_2}{V_1}=\frac{1112 psi\times 6.531 L}{12.45 L}=583.33 psi[/tex]

The initial pressure exerted by the gas was 583.33 psi.

A gas that exerts a pressure of 583.33 psi. psi in a container with a volume of 12.45 L will exert a pressure of 1112 psi when transferred to a container with a volume of 6.531 L.

A gas that exerts a pressure of ____ psi in a container with a volume of 12.45 L will exert a pressure of 1112 psi when transferred to a container with a volume of 6.531 L. (Solve the ____)

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A gas that exerts a pressure of psi in a container with a volume of 12.45 L will exert a pressure of 1112 psi when transferred to a container with a volume of 6.531 L. (Solve the )