The pressure acting on 500 cubic meters of gas is reduced from 4 atm to 2 atm. If the temperature remains constant, what is the new volume?

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The pressure acting on 500 cubic meters of gas is reduced from 4 atm to 2 atm. If the temperature remains constant, what is the new volume?

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Answer 1 · 2016-03-02T04:04:44

$"V"_"new"="1000 m"^3$

Explanation:

We will use Boyle's law, which states that pressure and volume are inversely proportional at constant temperature. We can express this mathematically as:

$"P"_1"V"_1="P"_2"V"_2$

Here, we see that

$"P"_1="4 atm"$
$"P"_2="2 atm"$

$"V"_1="500 m"^3$
$"V"_2="unknown"$

We want to manipulate Boyle's law to solve for $"V"_2$ :

$"V"_2=("P"_1"V"_1)/("P"_2)$

Plugging in what we know:

$"V"_2=("4 atm" * "500 m"^3)/("2 atm")$

$"V"_2=2 * "500 m"^3$

$"V"_2="1000 m"^3$

We can see that the volume increased from $"500 m"^3$ to $"1000 m"^3$ , so it doubled. This is paired with the pressure being halved, as should be the case in an inversely proportional relationship.

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The pressure acting on 500 cubic meters of gas is reduced from 4 atm to 2 atm. If the temperature remains constant, what is the new volume?

1 Answer

Explanation:

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