An ideal gas has a volume of 2.28 L at 279 K and 1.07 atm. What is the pressure when the volume is 1.03 L and the temperature is 307 K?

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An ideal gas has a volume of 2.28 L at 279 K and 1.07 atm. What is the pressure when the volume is 1.03 L and the temperature is 307 K?

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Answer 1 · 2015-12-29T22:19:58

$p = 2.61 atm to 3 significant figures$ $"p"= 2.61" atm to 3 significant figures"$

Explanation:

First, we use the first set of data to calculate the number of moles using the ideal gas equation:

$pV = nRT$ $"pV " = " nRT"$

Where:

$p$ $"p"$ is pressure in pascals ( $Pa$ $"Pa"$ )
$V$ $"V"$ is volume in cubic metres ( $m^{3}$ $"m"^3$ )
$n$ $"n"$ is the number of moles
$R$ $"R"$ is the gas constant = $8.314$ $8.314$
$T$ $"T"$ is the temperature in Kelvin ( $K$ $"K"$ )

First, convert your given values into workable units:

$1"L" = 0.001"m"^3, :. 2.28"L" = 0.00228"m"^3$
$1"atm" = 101325"Pa", :. 1.07"atm" = 108417.8"Pa"$

Second, rearrange the equation to solve for moles:

$"n "=" ""pV"/"RT"$

Next, substitute in your given values and calculate the number of moles:

$"n "=" "(108417.8"Pa" * 0.00228"m"^3)/(8.314 * 279"K")$

$"n "=" "0.1065color(red)(666)255" moles"$

We can then move onto calculating the new pressure value. The first thing to do here is to, again, convert non-compliant units into ones that are accepted by the equation:

$1"L" = 0.001"m"^3, :. 1.03"L" = 0.00103"m"^3$

Then we rearrange the equation to solve for pressure:

$"p "=" ""nRT"/"V"$

And substituting in our values, we get:

$"p "=(0.1065666255*8.314 * 307"K")/(0.00103"m"^3)$

$"p "=264078.0989" Pa" = 2.61" atm to 3 significant figures"$

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An ideal gas has a volume of 2.28 L at 279 K and 1.07 atm. What is the pressure when the volume is 1.03 L and the temperature is 307 K?

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