Chemical Equilibrium. Professor Bice Martincigh. Equilibrium
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1 Chemical Equilibrium by Professor Bice Martincigh Equilibrium involves reversible reactions Some reactions appear to go only in one direction are said to go to completion. indicated by All reactions are theoretically reversible but in some cases the reverse reaction is so slight or takes place so slowly that the reaction is considered irreversible. 1
2 Homogeneous Equilibria aa + bb cc + dd aa + bb cc + dd (forward reaction) Reaction Rate aa + bb cc + dd (equilibrium) cc + dd aa + bb (reverse reaction) Time At equilibrium: rate (forward reaction) = rate (reverse reaction) overall composition of reaction mixture does not change individual molecules go on reacting dynamic equilibrium As long as the temperature and pressure remain constant and nothing is added to or taken from the mixture, the equilibrium state remains unchanged. 2
3 aa + bb cc + dd concentration time Reaction goes to. aa + bb cc + dd concentration time reactant molecules > product molecules 3
4 aa + bb cc + dd concentration time reactant molecules < product molecules forward reaction favourable, aa + bb cc + dd K K c equilibrium constant [ ] molarity at equilibrium K does vary with temperature c [C] [A] K > 1 favoured, reaction favoured K < 1 favoured, reaction favoured c a [D] [B] d b 4
5 Interpreting the equilibrium constant If K c for a reaction, aa + bb cc + dd is large, the equilibrium mixture is mostly. If K c is small, the equilibrium mixture is mostly. When K c is around 1, the equilibrium mixture contains appreciable amounts of both reactants and products. Example For the reaction SO 2 (g) + ½O 2 (g) SO 3 (g) [SO3] K c 25.0 at 600 C 1 2 [SO ][O ] 2 2 Calculate the value of K c for each of the following reactions, at the same temperature: 2SO 2 (g) + O 2 (g) 2SO 3 (g) SO 3 (g) SO 2 (g) + ½O 2 (g) 5
6 CO(g) + 3H 2 (g) CH 4 (g) + H 2 O(g) CH H O K [ ][ ] 4 2 c 3 [ CO][ H ] 2 Starting Equil. K c Conc. Conc. Exp I M CO M CO M H M H M CH M H 2 O CO(g) + 3H 2 (g) CH 4 (g) + H 2 O(g) CH H O K [ ][ ] 4 2 c 3 [ CO][ H ] 2 Starting Equil. K c Conc. Conc. Exp II M CO M CO M H M H M CH M H 2 O 6
7 CO(g) + 3H 2 (g) CH 4 (g) + H 2 O(g) CH H O K [ ][ ] 4 2 c 3 [ CO][ H ] 2 Starting Equil. K c Conc. Conc. Exp III M CH M CO M H 2 O M H M CH M H 2 O CO(g) + 3H 2 (g) CH 4 (g) + H 2 O(g) When mol CO and mol H 2 are placed in a dm 3 vessel at 1200 K and allowed to come to equilibrium, the mixture is found to contain mol H 2 O. What is the molar composition of the equilibrium mixture? That is, how many moles of each substance are present? 7
8 CO(g) + 3H 2 (g) CH 4 (g) +H 2 O(g) Starting Change Equil. CO = H 2 = CH 4 = Reaction Quotient, Q c [C] Qc [A] c a [D] [B] d b Takes the same form as K c but is written for reactions not at equilibrium. 8
9 Predicting the direction of reaction Q > K to establish equilibrium reaction is favoured Q < K to establish equilibrium reaction is favoured Q = K Example A 50.0 dm 3 reaction vessel contains 1.00 mol N 2, 3.00 mol H 2, and mol NH 3. Will more ammonia, NH 3, be formed or will it dissociate when the mixture goes to equilibrium at 400 C? The equation is N 2 (g) + 3H 2 (g) 2NH 3 (g). K c is at 400 C. 9
10 Equilibrium constant, K p PCl 3 (g) + Cl 2 (g) PCl 5 (g) This is a gas phase reaction and we can use partial pressures instead of concentration, i.e. K p. partial pressure [ ] na P A = RT VA = [A]RT PCl 3 (g) + Cl 2 (g) PCl 5 (g) [PCl5] Kc [PCl ][Cl ] 3 PPCl5 Kp P P PCl 3 Cl K K p 2 2 c (RT) Δn 4 5 Δn = (moles of gaseous products) (moles of gaseous reactants) 10
11 Heterogeneous Equilibria 3Fe(s) + 4H 2 O(g) Fe 3 O 4 (s) + 4H 2 (g) K c or K p As long as some solid is present (no matter how much), equilibrium is reached in the same way. The equilibrium law for a heterogeneous reaction is written without concentration terms for pure solids or liquids. Homogeneous Equilibria in Solution alcohol + acid ester + water C 2 H 5 OH + CH 3 COOH CH 3 COOC 2 H 5 + H 2 O K c When water is a reactant or product but is not present in excess as the solvent, its concentration must be included in the equilibrium constant expression. 11
12 Reactions in dilute aqueous solution Here water is the solvent and is in great excess: NH 3 (aq) + H 2 O(l) (aq) + OH (aq) NH 4 K c CH 3 COOH(aq) + H 2 O(l) H 3 O + (aq) + CH 3 COO (aq) K c Factors that influence equilibria Le Chatelier s Principle If a system at equilibrium is subjected to a stress, the system will react in a way that tends to relieve the stress. Two factors cause the equilibrium to shift: concentration temperature 12
13 Changing the amounts of products or reactants Can be changed either by changing the amount of a particular substance or the volume that it is contained in. Changing the volume causes a change in pressure. Adding or removing a reactant or product The reaction shifts in a direction that will partially remove a substance that has been added or partially replace a substance that has been removed. 13
14 CO(g) + 3H 2 (g) CH 4 (g) +H 2 O(g) Remove water? Original equi Remove H 2 O New Equil Equilibrium shifts to the ( direction). K c does not change. Changing the volume Reducing the volume of a gaseous reaction mixture shifts the equilibrium in whichever direction will, if possible, decrease the number of molecules of gas. 14
15 CO(g) + 3H 2 (g) CH 4 (g) + H 2 O(g) Reduce the volume at constant T Equilibrium shifts to the to decrease the moles of gas and reduce the pressure. C(s) + CO 2 (g) 2CO(g) Increase the pressure by decreasing the volume Shifts to the ( reaction) Solids and liquids are incompressible and not much affected by pressure changes. 15
16 H 2 (g) + I 2 (g) 2HI(g) Does not respond to pressure changes. Changing the temperature Increasing the temperature shifts an equilibrium in a direction that produces an endothermic change (which absorbs heat). 16
17 Increasing temperature Exothermic reaction A + B C + D + heat Endothermic reaction A + B + heat C + D K changes with temperature If the forward reaction in an equilibrium is exothermic, raising the temperature causes the equilibrium constant to become smaller. The opposite change in K occurs if the forward reaction is endothermic. 17
18 Agents that do not affect the position of equilibrium catalyst affects both the forward and reverse reactions equally and does not affect the position of the equilibrium causes no change in the value of K or in the concentrations at equilibrium adding an inert gas at constant volume Example (a) (b) (c) (d) (e) Consider the reaction: 4HCl(g) + O 2 (g) 2H 2 O(g) + 2Cl 2 (g); ΔH = 28 kj Describe what happens to the composition of the equilibrium mixture and to K c with each of the following changes to the system at equilibrium: Addition of oxygen gas An increase in temperature Reduction of the volume of the reaction container Addition of a catalyst Removal of HCl(g) from the reaction vessel. 18
19 Calculating equilibrium concentrations Consider the reaction CO(g) + H 2 O(g) CO 2 (g) +H 2 (g). Suppose you start with 1.00 mol each of carbon monoxide and water in a 50.0 dm 3 vessel. How many moles of each substance are in the equilibrium mixture at 1000 C? The equilibrium constant K c at this temperature is Example Suppose that in the preceding example mol each of CO and H 2 O are mixed with mol each of CO 2 and H 2. What will the concentrations of all the substances be when the mixture reaches equilibrium at the same temperature? 19
20 Example Consider the reaction H 2 (g) + I 2 (g) 2HI(g). Suppose 1.00 mol H 2 and 2.00 mol I 2 are placed in a 1.00 dm 3 vessel. How many moles of substances are in the gaseous mixture when it comes to equilibrium at 458 C? The equilibrium constant K c at this temperature is
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