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Enthalpy and Entropy Lesson 2. Which way does the reaction go?! At equilibrium, the reaction can go to the product side, and/or the reactant side. What.

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Presentation on theme: "Enthalpy and Entropy Lesson 2. Which way does the reaction go?! At equilibrium, the reaction can go to the product side, and/or the reactant side. What."— Presentation transcript:

1 Enthalpy and Entropy Lesson 2

2 Which way does the reaction go?! At equilibrium, the reaction can go to the product side, and/or the reactant side. What favors one side over the other?

3 TWO THINGS YOU NEED TO KNOW ABOUT REACTIONS IN GENERAL 1. Reactions tend to go toward minimum enthalpy. 2. Reactions tend to go toward maximum entropy

4 1. Reactions tend to go toward minimum enthalpy Minimum enthalpy or minimum energy is always favoured as molecules want to stay in a state where there is minimum energy ( more stable )

5 Products Favoured Remember Enthalpy (PE) on a PE graph Identify Minimum enthalpy/Minimum PE = This is where the reaction will go.

6 Reactants Favoured

7 Min enthalpy review Min enthalpy favours side with heat term –If rxn is exothermic, prefers products. –If rxn is endothermic, prefers reactants.

8 2. Reactions tend to go toward maximum entropy Entropy (S) = amount of randomness in a system.

9 Why is MAXIMUM entropy favored? Think about this…

10 If you tossed bricks off of a truck, which pile of bricks are you most likely to produce???

11 Maximum Entropy It is all to do with probability … –The possibility of a very highly organized outcome taking place is much, much lower than a highly random outcome –There are more random outcomes possible than highly organized ones.

12 How do we figure out entropy in a reaction? Ask yourself: what is the most random phase present?

13 How do we figure out entropy in a reaction? Ask yourself: what is the most random phase present? Gases  aqueous solutions  pure liquids  Solids most random (least organized)  least random (most organized)

14 Entropy examples CaC 2 (s) + 2H 2 O (l) C 2 H 2 (g) + Ca(OH) 2 (aq) ↔

15 Entropy Examples A (g) + B (s)  2C (g) + D (s) The side having the most number of particles in the most random phase will have the most randomness and will be favoured.

16 Entropy is randomness or a measure of how spread out, or broken up the system is. Less EntropyMore Entropy H 2 O (s) H 2 O (g) H 2 O (l) NaCl (s) NaCl (aq) N 2 O 4(g) 2NO 2(g) glassbroken glass clean roommessy room H 2 O (l)

17 Entropy summary more moles of gases  gases  aqueous slns  pure liquids  Solids Most random(max entropy)  least random(min entropy)

18 Putting things together Remember, reactions favour: 1- sides with minimum enthalpy 2- sides with maximum entropy.

19 Products are favoured Are the products or Reactants favoured? 0 gases1 gas 1.Zn (s) + 2HCl (aq) H 2(g) + ZnCl 2(aq) ΔH = -252 KJ Goes to Completion For entropy- only look at phase symbols- mainly gases spontaneous ↔ ?

20 ⇌ Products Reactants

21 Which Way? Right or left? Equilibrium spontaneous Are the Products or Reactants favoured? 1 gas2 gases 2.N 2 O 4(g) 2NO 2(g) ΔH = +20 KJ ↔ ?

22 ⇌ reactants Products

23 Which Way? Right or left? Reactants are favoured Does not occur Non spontaneous! Are the Products or Reactants favoured? 3 gases1 gas 3.3C (s) + 3H 2(g) + 45 KJ C 3 H 6(g) ↔ ?

24 ⇌ reactants products

25 More examples: Which way will this reaction go? Zn (s) + 2HCl (aq) → H 2(g) + ZnCl 2(aq) ΔH = -252 KJ

26 Which way will this reaction go? 3C (s) +3H 2(g) + 45 KJ→ C 3 H 6(g)

27 Think… Where would maximum entropy be for an endothermic equilibrium system? Maximum entropy Must be on the opposite side Minimum enthalpy Entropy must increase I’m Entropy

28 Page 47 examples C 2 H 2(g) + 2Cl 2(g)  C 2 H 2 Cl 4(l) + 386 KJ

29 CH 4(g) + O 2(g)  CO 2(g) + 2H 2 O (g) + 394 KJ

30 4 Au (s) + 3 O 2(g) + 162 KJ  2 Au 2 O 3(s)

31 Summary To find out which side the reaction will go -where is min enthalpy? –If rxn is exothermic, prefers products. –If rxn is endothermic, prefers reactants. -where is max entropy? more moles of gases  gases  aqueous slns  pure liquids  Solids

32 Summary If both min enthalpy and max entropy are at the same side, this is the side the rxn goes to. -products (completion) -reactants side (does not occur) If they are at different sides, it means it is at equilibrium.

33 Homework Hebden: page 48-49 questions 14-16

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