Download presentation
1
3.2.1- 3.2.2- the Equilibrium Constant
Unit 3: Equilibrium the Equilibrium Constant
2
3.2.1 The Equilibrium Constant, Keq
Chemists have found that there is a mathematical relationship that exists between the concentration of the reactants and products once equilibrium has been reached For any general reaction: aA + bB cD + dD
3
Equilibrium Constant an equilibrium constant expression can be written as: Keq= [C]c × [D]d [A]a × [B]b This equation is sometimes called the mass-action expression.
4
The products of the reaction (C and D) are placed in the numerator, and their concentrations are raised to the power of the coefficients from the balanced equation. The reactants (A and B) are placed in the denominator, with their concentrations raised to the power of their coefficients.
5
Example For the reaction between hydrogen and iodine gas to produce hydrogen iodide: H2 (g) + I2 (g) HI(g) the equilibrium constant expression will be: Keq = [HI]2 [H2] × [I2 ]
6
Example con’t At equilibrium: [H2] = M [I2] = M [HI] = M We substitute these values into our equilibrium expression and solve for Keq: Keq = [HI] = (0.156)2 [H2] × [I2 ] (0.022)(0.022) = 50.3
7
Note #1 The value of Keq (which has no units) is a constant for any particular reaction; its value does not change unless the temperature of the system is changed. It does not depend on the initial concentrations used to reach the point of equilibrium. Trial [HI] [ H2] [ I2] Keq 1 0.156 0.0220 50.3 2 0.750 0.106 50.1 3 1.00 0.820 0.0242 50.4 4 5 1.56 0.220
8
Note #2: The concentrations of both aqueous solutions and gases change during the progress of a reaction. For reactions involving a solid or a liquid, the concentrations of a liquid or solid will not change during the reaction but will stay constant. Therefore the values for solids and liquids are not included in the equilibrium constant expression.
9
CaO (s) + CO2 (g) CaCO3 (s) The equilibrium constant for this reaction would be: Keq = [CaCO3] [CaO] × [CO2] But we remove those participants whose state is either a solid or a liquid, which leaves us with the following equilibrium constant expression: Keq = [CO2]
10
Practice Questions 3.2.1- complete and hand-in
11
3.2.2 The Meaning of Keq If Keq is very large, the concentration of the products is much greater than the concentration of the reactants. All - or most- of the reactants are used up to form the products. If Keq is very small, the concentration of the reactants is much greater than the concentration of the products. The reaction does not occur to any great extent - most reactants remain unchanged, and only a few products are produced. When Keq is not very large or very small (close to a value of 1) then roughly equal amounts of reactants and products are present at equilibrium.
12
Examples 1. 2 O3 (g) 3 O2 (g) Keq = 2.0 × 1057
Keq is very large, indicating that mostly O2 is present in an equilibrium system, with very little O3 2. N2 (g) + O2 (g) 2 NO(g) Keq = 1.0 × 10-25 Very little NO is produced by this reaction; N2 and O2 do not react readily to produce NO 3. CO(g) + H2O(g) CO2 (g) + H2 (g) Keq = 5.09 The concentrations of the reactants are very close to the concentrations of the products at equilibrium
13
Practice Question 3.2.2 Assignment 3.2.2
Similar presentations
© 2024 SlidePlayer.com. Inc.
All rights reserved.