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Chemical Equilibrium. The state of a chemical reaction in which its forward and reverse reactions occur at equal rates so that the concentration of the.

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Presentation on theme: "Chemical Equilibrium. The state of a chemical reaction in which its forward and reverse reactions occur at equal rates so that the concentration of the."— Presentation transcript:

1 Chemical Equilibrium

2 The state of a chemical reaction in which its forward and reverse reactions occur at equal rates so that the concentration of the reactants and products does not change with time.

3 Law of Mass Action aA + bB + cC +... pP + qQ + rR +... Equilibrium Constant [P] p [Q] q [R] r... K = --------------------- [A] a [B] b [C] c...

4

5 Meaning of Equilibrium Constant K>>1: reaction is product-favored; equilibrium concentrations of products are greater than equilibrium concentrations of reactants. K<<1: reaction is reactant-favored; equilibrium concentrations of reactants are greater than equilibrium concentrations of products.

6 If K = 100 = [I 2 in CCl 4 ] / [I 2 in water] for the equilibrium I 2 in water = I 2 in CCl 4 What is K for the reverse reaction, I 2 in CCl 4 = I 2 in H 2 O? 100, 1, 0.01

7 Acid-Base Equilibrium in Aqueous Solution Acid Dissociation Constant HC 2 H 3 O 2 + H 2 O H 3 O + + C 2 H 3 O 2 - [H 3 O + ][C 2 H 3 O 2 - ] K = ---------------------- [H 2 O][HC 2 H 3 O 2 ] [H 3 O + ][C 2 H 3 O 2 - ] K a = K*[H 2 O] = --------------------- - [HC 2 H 3 O 2 ]

8 Acid-Base Equilibrium in Aqueous Solution Base Dissociation Constant NH 3 + H 2 O NH 4 + + OH - [NH 4 + ][OH - ] K = ----------------- [H 2 O][NH 3 ] [NH 4 + ][OH - ] K b = K*[H 2 O] = ---------------- [NH 3 ]

9 Autoionization of Water H 2 O + H 2 O H 3 O + + OH - [H 3 O + ][OH - ] K = ----------------- [H 2 O] 2 K w = K [H 2 O] 2 = [H 3 O + ][OH - ] = 1.0 x 10 -14

10 Analogy in Semiconductors | | | | -Si:Si- -Si + :Si- + e - | | | | | | -Si:Si- h + + e - | | K = h + * e -

11 e - and h + in Semiconductors Production Recombination electrons (e ) – holes (h ) + Electron energy conduction band valence band Si e – + h E g conduction band valence band

12 Autoionization Equilibria

13 e - and h + in Semiconductors + h Si e – + h e – (–)(+)

14 Doping

15 Donors and Acceptors in Silicon conduction band } valence band donors M  M + e + – }

16 Which dopant will act as an acceptor for Si? B, Ge, As As a donor? B, Ge, As

17 Fermi Level

18 Le Chatelier's Principle If a stress, such as a change in concentration, pressure, temperature, etc., is applied to a system at equilibrium, the equilibrium will shift in such a way as to lessen the effect of the stress.

19 Gas Phase Equilibrium catalysis N 2(g) + 3 H 2(g) 2 NH 3(g) + heat high pressure and temperature

20

21 The Principle of Le Chatelier Changes in Concentration or Partial Pressure for N 2(g) + 3 H 2(g)  2 NH 3(g) an increase in N 2 and/or H 2 concentration or pressure, will cause the equilibrium to shift towards the production of NH 3

22 The Principle of Le Chatelier Changes in Concentration or Partial Pressure for N 2(g) + 3 H 2(g)  2 NH 3(g) likewise, a decrease in NH 3 concentration or pressure will cause more NH 3 to be produced

23 The Principle of Le Chatelier Changes in Temperature for N 2(g) + 3 H 2(g)  2 NH 3(g) + heat for an exothermic reaction, an increase in temperature will cause the reaction to shift back towards reactants

24 The cobalt complexes participating in the equilibrium below comprise a humidity sensor. From Le Châtelier's principle, when the sensor is moist (excess H 2 O), what color is the cobalt complex? pink, blue

25 A competition experiment involves O 2 and CO vying for hemoglobin (Hb) sites, defined by the equilibrium Hb(O 2 ) 4 + 4 CO = Hb(CO) 4 + 4O 2 From Le Châtelier's principle, how is CO poisoning reversed? decrease O 2 pressure, increase O 2 pressure, remove Hb

26 Heterogeneous Equilibrium CaCO 3(s) + heat CaO (s) + CO 2(g)

27 Gibbs Free Energy and Equilibrium  G Reaction ------------------------------------- NegativeSpontaneous PositiveNon-Spontaneous ZeroEquilibrium -------------------------------------

28 The Influence of Temperature on Free Energy  G,  H, &  S  G =  H - T  S  H  S  G negativepositivenegative spontaneous at all temperatures

29 The Influence of Temperature on Free Energy  G,  H, &  S  G =  H - T  S  H  S  G positivenegativepositive non-spontaneous at all temperatures

30 The Influence of Temperature on Free Energy  G,  H, &  S  G =  H - T  S  H  S  G negativenegative-------- spontaneous at low temperatures, nonspontaneous at high temperatures

31 The Influence of Temperature on Free Energy  G,  H, &  S  G =  H - T  S  H  S  G positivepositive-------- spontaneous at high temperatures, nonspontaneous at low temperatures

32 Phase Transitions H 2 O (s) -----> H 2 O (l)  H > 0;  S > 0 H 2 O (l) -----> H 2 O (g)  H > 0;  S > 0 spontaneous at high temperatures

33 Phase Transitions H 2 O (l) -----> H 2 O (s)  H < 0;  S < 0 H 2 O (g) -----> H 2 O (l)  H < 0;  S < 0 spontaneous at low temperatures

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