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What volume would a container need to be to hold 0.750 mol of neon at 5.00 atm at 325 K? (R = 0.0820574 L*atm/(mol*K))
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What volume would a container need to be to hold 0.750 mol of neon at 5.00 atm at 325 K? (R = 0.0820574 L*atm/(mol*K))

User Jim Weaver
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1 Answer

4 votes

Answer:


4.00\text{ L}

Step-by-step explanation:

Here, we want to get the volume of the container needed

From the ideal gas law:


\begin{gathered} PV\text{ = nRT} \\ V\text{ = }(nRT)/(P) \end{gathered}

where:

V is the volume of the container that we want to calculate

n is the number of moles of Neon which is 0.750 mol

R is the molar gas constant which is 0.0820574

T is the temperature at 325 K

P is the pressure at 5 atm

Substituting the values:


V\text{ = }(0.75*0.0820574*325)/(5)\text{ = 4 L}

User Tsayen
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