Answer :
The formula for the ideal-gas percent deviation is: PV = nRT, where R = 0.08206 L.atm/ k.mol = 8.3145 J/K.mol
General gas equation:
[tex]\frac{P_{i} V_{i} }{n_{i} T_{i} }[/tex] = [tex]\frac{P_{f} V_{f} }{n_{f} T_{f} }[/tex]
Density of gas:
р = [tex]\frac{MP}{RT}[/tex]
Derive Ideal gas equation?
Any collection of relationships between a single quantity (such as V) and a number of other variables (such as P, T, and n) can be combined into a single statement that encompasses all of the relationships simultaneously. Prior to now, the following three unique expressions were derived:
Boyle’s law
V ∝ 1/P at constant n and T
Charles’s law
V ∝ T at constant n and P
Avogadro’s law
shows V ∝ n at constant T and P
by Combining these three expressions,
V ∝ nT/P
The proportionality constant, also referred to as the gas constant and represented by the letter R, can be written as follows by combining these three expressions:
V = Cons.(nT/P).
Equation becomes V = RnT/P = nRT/P when R is included.
To get rid of the fractions, multiply both sides of the equation by P to get PV = nRT.
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