Step-by-step explanation:
If we have the following reaction at equilibrium:
aA + bB ⇄ cC + dD
where a, b, c, and d are the stoichiometric coefficients for the reacting species A, B, C, and D. For the reaction at a particular temperature:
Kc=([C]^c *[D]^d)/([A]^a *[B]^b)
where Kc is the equilibrium constant, which holds that for a reversible reaction at equilibrium and a constant temperature, a certain ratio of reactant and product concentrations has a constant value, Kc (the equilibrium constant). Note that although the concentrations may vary, as long as the reaction in in equilibrium and temperatura don't change, the value of K remains constant.
For reactions that have not reached equilibrium, we obtain the reaction quotient (Qc), instead of the equilibrium constant by substituting the initial concentrations into the equilibrium constant expression.
Qc=([Co]^c *[Do]^d)/([Ao]^a *[Bo]^b)
To determine the direction in wich the net reaction will proceed to reach equilibrium, que compare the values of Qc and Kc.
- Qc < Kc: To reach equilibrium, reactants must be converted to products (→)
- Qc = Kc: The initial concentrations are equilibrium concentrations. The system in at equilibrium.
- Qc > Kc: To reach equilibrium, products must be converted to reactants (←)
Solution:
We have the following reaction:
NO2Cl(g)+NO(g)⇌NOCl(g)+NO2(g)
So:
Kc=([NOCl]^1*[NO2]^1)/([NO2Cl]^1 *[NO]^1)
=([NOCl][NO2])/([NO2Cl][NO])
1. In the equation above, [NO2Cl] it's in the denominator, so if we increase it's numericall value by adding NO2Cl decreases Qc to a value less than Kc.
(From the chemical point of view, if we disturb the equilibrium adding NO2Cl (a reactant), to reach equilibrium again the system proceeds from left to right (→) consuming this reactant.)
2. To reach a new state of equilibrium (where Qc = Kc), Qc therefore increases wich means that the denominator of the expression for Qc decreases (in order to increase the denominator as mention above).
3. To accomplish this, the concentration of reageants decreases (reagents are being consumed), and the concentration of prodcuts increases (products are being formed).