Ideal Gas Law & Dalton’s Law of Partial Pressure

Combined Gas Equation

The Boyle’s and Charles’ law can be combined to give a relationship between the three variables P, V and T.

Let a certain amount of a gas in a vessel have a volume V₁, pressure P₁ and temperature T₁.

On changing the temperature and pressure to T₂ and P₂ respectively, the gas occupies a volume V₂.  

Then we can write  

The above relation is called the combined gas law.  

Ideal Gas Equation

Refer to the following video for Ideal Gas Equation

A gas that would obey Boyle’s , Charle’s law  and Avogadro’s law under the conditions of temperature and pressure is called an ideal gas.  

Here, we combine four measurable variables P, V, T and n to give a single equation.  

The combined gas law can be written as 

V ∝ nT / p

or pV ∝ nT  

 pV = nRT  

This is called ideal gas equation  

where R is the constant of proportionality or universal gas constant    

The value of R was found out to be  

R = 8.314 J mol^–1 K^–1  

R = 0.0821 litre atm K^–1 mol^–1  

R = 2 cal K^–1 mol^–1  

• Ideal gas equation is a relation between four variables and it describes the state of any gas, therefore, it is also called equation of state.

• Ideal gas is a hypothetical concept. Real gases behave ideally only under certain conditions (i.e. high temperature and low pressure).

Dalton’s Law of Partial Pressure 

• The relation between the pressures of the mixture of non-reacting gases enclosed in a vessel to their individual pressure is described in the law.

• The law was given by John Dalton in 1807.

• It states that.  
  At constant temperature, the pressure exerted by a mixture of two or more non-reacting gases enclosed in a definite volume, is equal to the sum of the individual pressures which each gas would exert if present alone in the same volume.  

• The individual pressures of gases are known as partial pressures.  

• Mathematically
  If P is the total pressure of the mixture of non-reacting gases at temperature T and volume V, and P₁, P₂, P₃ …. represent the partial pressures of the gases, then  
  P = P₁ + P₂ + P₃+ ……… (T, V are constant)
   

• Partial Pressure in terms of Mole Fraction

Mole fraction (X) defines the amount of a substance in a mixture as a fraction of total amount of all substances.

If n =1 moles of any substance is present in n moles of the mixture, then mole fraction of the substance, X₁ = n₁ / n  

If P_N2 is the partial pressure of nitrogen the mixture of SO₂ and N_­2. Then  

P_N2 = n_N2 × RT/V  (= no. of moles of N₂)  

and P_mixture = (n_N2 + n_SO2) RT / V  

dividing we get,  

 P_N2 / P_mixture = (n_N2 / n_N2 + N_SO2) = X_N2  

or, P_N2 = X_N2 × P_mixture    

• Gases are generally collected over water and therefore are moist. 

• Pressure of dry gas can be calculated by subtracting vapour pressure of water from the total pressure of the moist gas which contains water vapours also.

• Pressure exerted by saturated water vapour is called aqueous tension.

Question 1: Which of the following expressions for Ideal gas equation is incorrect?

a. pV = nRT

b. p = nRT/V

c. P = RT/M

d. V₁ / T₁ = V₂ / T₁

Question 2: Which of the following units of R is incorrect?

a. J mol^–1 K^–1  

b. litre atm K^–1 mol^–1  

c. cal K^–1 mol^–1

d. Kg K^–1 mol^–1

Question 3: What would be the total vapour pressure of the mixtures of two gas A and B if mole fraction of and partial vapour pressure of gas A is 0.5 bar and 0.1 respectively.

a. 0.5 bar

b. 0.1 bar

c. 5.0 bar

d. 1.0 bar

Question 4: How many number of moles of gas A is present in a vessel of 5 L at 1 atm temperature and 273 K temperature. (R = 0.0821 litre atm K^–1 mol^–1  )

a. 12.2

b. 1.12

c. 11.2

d. 1.21

Related Resources

• Click here to go through JEE  Physical Chemistry Syllabus JEE,

•  Look here for Reference books of  Chemistry

• You can also refer States of matter

To read more, Buy study materials of States of Matter comprising study notes, revision notes, video lectures, previous year solved questions etc. Also browse for more study materials on Chemistry here.