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Interpretation:
In the following reaction of formation of N2O3.
A mixture at temperature 298K and total pressure 1.65 atm is prepared with 2.0 mol NO and 3.0 mol NO2. Calculate:
- The equilibrium partial pressure NO and NO2
- Volume of the container.
Concept introduction:
Equilibrium is the process in which temperature, pressure, concentration of reactant and product do not show any change with respect to time.
There are two types of equilibrium.
- Physical equilibrium: In this, the physical state of the reactant and the product does not change when dynamic equilibrium occurred.
Chemical equilibrium : In this, the chemical composition of reactant and product does not change when dynamic equilibrium occurred. There are two types of reaction occurred in this.
(a) Reversible reactions: In this reaction, reaction can occur in two ways, where reactant can convert to product as well as product can convert back to reactant.
(b) Irreversible reaction: In this reaction, reaction cannot occur in two ways where reactant can convert to product, but product cannot convert back to reactant.
Equilibrium constant
Reaction quotient Q is defined as the ratio at any point of the reaction of the concentration of the product raised to the power of their stoichiometric coefficients and reactant raised to the power of their stoichiometric coefficients.
To calculate:
The partial pressure of NO and NO2 at equilibrium and volume.
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