1 Answer

Christophe Moine · Answer 1 · 2023-02-25T10:18:37+0000

Answer:

$89.17\text{ kPa}$

Step-by-step explanation:

Here, we want to get the required pressure in kPa

We start by writing the ideal gas equation

We have that as:

$PV\text{ = nRT}$

where P is the pressure we want to calculate

V is the volume which is 4.2 L

n is the number of moles which is 0.15

T is the temperature which we will convert to Kelvin by adding 273K:

We have that as 273 + 23 = 300K

R is the molar gas constant which is 0.0821 L.atm/mol.K

Substituting the values, we have it that:

$P\text{ = }(nRT)/(V)\text{ = }\frac{0.15\text{ }*0.0821*300}{4.2}\text{ = 0.88 atm}$

Finally, we convert the pressure in atm to pressure in kPa

To do this, we multiply the atm value by 101.325

We have that as:

$0.88\text{ }*\text{ 101.325 = 89.17 kPa}$

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