Question #10023

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Question #10023

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Answer 1 · 2017-06-10T18:38:45

$96$ $96$ $kPa$ $"kPa"$

Explanation:

We're asked to calculate the new pressure of a gas after it is subjected to a change in volume with constant temperature.

We can solve this problem using the pressure-volume relationship of gases, illustrated by Boyle's law:

$P_{1} V_{1} = P_{2} V_{2}$ $P_1V_1 = P_2V_2$

Since we're trying to find the final pressure, let's rearrange this equation to solve for $P_{2}$ $P_2$ :

$P_{2} = \frac{P_{1} V_{1}}{V_{2}}$ $P_2 = (P_1V_1)/(V_2)$

Plugging in the known variables, we have

$P_2 = ((41"kPa")(14cancel("L")))/(6cancel("L")) = color(red)(96$ $color(red)("kPa"$

rounded to two significant figures, the amount given in the problem.

The pressure thus increases to $96$ kilopascals. This makes logical sense since because the $sfcolor(blue)("volume decreased"$ , the $sfcolor(green)("pressure"$ must have $sfcolor(green)("increased"$ . Pressure and volume are inversely proportional.

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Question #10023

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