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Chapter 19: Reaction Rates and Equilibrium

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Title: Chapter 19: Reaction Rates and Equilibrium


1
Chapter 19 Reaction Rates and Equilibrium
2
Rate
  • The speed of change within an interval of time
  • In chemistry, rates of change are usually
    expressed as the amount of reactant changing per
    unit time

3
  • Visible changes caused by chemical reactions are
    related to changes in the properties of
    individual atoms, ions, or molecules

4
Collision Theory
  • Atoms, ions, and molecules can react to form
    products when they collide, providing that the
    molecules have enough kinetic energy
  • Particles without enough kinetic energy to react
    bounce apart
  • http//phet.colorado.edu/simulations/sims.php?sim
    Reactions_and_Rates

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Activation Energy
  • The minimum amount of energy that particles must
    have in order to react

7
Activated Complex
  • Is the arrangement of atoms at the peak of
    activation-energy barrier
  • Very unstable- can either reform reactants or
    form products
  • Also called transition state

8
Activated Complex
Energy of products
Energy of reactants
Activation energy
Net Energy Change
9
Factors Affecting Reaction Rates
  • Temperature
  • Concentration
  • Particle Size
  • Catalysts
  • Inhibitors

10
Temperature
  • Usually, raising the temperature speeds up
    reactions, while cooling it slows down reactions

11
Concentration
  • More molecules more collisions increase in
    rate of reaction

12
Particle Size
  • The smaller the particle size greater surface
    area faster rate of reaction

13
Catalysts
  • A substance that increases the rate of reaction
    without being used up
  • Lower activation energy
  • Are neither reactants nor products
  • Do NOT affect the amounts of reactants and
    products present at equilibrium
  • Ie. Enzymes

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Inhibitors
  • A substance that interferes with the action of a
    catalyst

16
Reversible Reactions
  • The reactions occur simultaneously in both
    directions
  • 2SO2 (g) O2 (g) 2SO3 (g)
  • http//phet.colorado.edu/simulations/sims.php?sim
    Reversible_Reactions

17
Chemical Equilibrium and Equilibrium Position
  • A state in which the forward and reverse
    reactions take place at the same rate
  • No NET change
  • Rates of reaction are equal NOT necessarily
    concentrations
  • A B A B

1
99
99
1
A Favored
B Favored
18
Le Châteliers Principle
  • A system whose equilibrium has been disturbed,
    makes changes to restore that equilibrium
  • This establishes a NEW equilibrium with a NEW
    position of equilibrium

19
Le Châteliers Principle
  • If a stress is applied to a system in dynamic
    equilibrium, the system changes to relieve that
    stress
  • Stresses include
  • a. changes in concentration of reactants or
    products
  • b. changes in temperature
  • c. changes in pressure

20
Concentration
  • H2CO3 (aq) CO2 (aq) H2O (l)

Add CO2
Remove CO2
Removal of products is often used to increase the
yield of a desired product
21
Temperature
  • 2SO2 (g) O2 (g) 2SO3 (g) Heat

Add Heat
Cool
22
Pressure
  • N2 (g) 3 H2(g) 2NH3 (g)

Decrease Pressure
Increase Pressure
23
Example
  • N2 (g) 3 H2 (g) 2NH3 (g) 92 kJ
  • Addition of heat
  • Increase in pressure
  • Addition of catalyst
  • Removal of heat

24
Le Châteliers Principle
  • http//www.mhhe.com/physsci/chemistry/essentialche
    mistry/flash/lechv17.swf

25
Equilibrium Constants (Keq)
  • The ratio of product concentrations to reactant
    concentrations
  • aA bB cC dD
  • Keq Cc x Dd
  • Aa x Bb

Lower case letters represent moles at equilibrium
capital letters concentrations in mol/L
26
Equilibrium Constants (Keq)
  • Temperature dependent
  • Show whether products or reactants are favored
  • Keq gt 1 products favored at equilibrium
  • Keq lt 1 reactants favored at equilibrium

27
Example
  • Analysis of an equilibrium mixture in a 1 L flask
    at 300oC gives the following results
  • Hydrogen 0.15 mol
  • Nitrogen 0.25 mol
  • Ammonia 0.10 mol
  • Calculate Keq and determine which is favored
  • N2 (g) 3 H2(g) 2NH3 (g)

Keq Cc x Dd Aa x Bb
28
Free Energy
  • Is the energy available to do work
  • Is not always used efficiently
  • NO process can be made 100 efficient
  • Energy can only be obtained if the reaction
    actually occurs

29
Spontaneous Reactions
  • Are reactions that occur naturally and that favor
    the formation of the products at the specified
    conditions
  • ALL spontaneous reactions release free energy

30
Nonspontaneous Reactions
  • Reactions that do NOT favor the formation of
    products at the specified conditions
  • Do not give substantial amounts of products at
    equilibrium
  • H2CO3 (aq) CO2 (g) H2O (l)
  • lt1 gt99

31
  • Term spontaneous and nonspontaneous do NOT refer
    to how fast the reactants form products

32
  • Some reactions that are nonspontaneous at one set
    of conditions MAY be spontaneous at other
    conditions
  • Changing Temperature
  • Changing Pressure
  • Coupled Reactions

33
Coupled Reactions
  • Sometimes a nonspontaneous reaction can be made
    to occur by coupling it with a spontaneous
    reaction that releases free energy

34
Enthalpy
  • Some processes may be spontaneous even if the
    absorb heat (endothermic)

35
Entropy
  • The disorder of a system

36
Law of disorder
  • Processes move in the direction of maximum
    possible disorder or randomness
  • More disorder lower energy

37
Gas
Liquid
Solid
Increasing Entropy
38
Entropy increases when a substance is divided
into parts
Increasing Entropy
39
Entropy tends to increase in chemical reactions
where the total number of molecules increases
Increasing Entropy
2 H2O2
2 H2O O2
2 Molecules
3 Molecules
40
Entropy tends to increase when temperature
increases
41
Heat, Entropy, and Free Energy
  • The size and direction of heat (enthalpy) and
    entropy changes together determine whether a
    reaction is spontaneous

42
How Changes in Heat Affect Reaction Spontaneity How Changes in Heat Affect Reaction Spontaneity How Changes in Heat Affect Reaction Spontaneity

Heat Change Entropy Spontaneous Reaction
Decreases Increases (more disorder Yes
(Exothermic) in products than reactants)  
     
Increases Increases Only if unfavorable heat change
(Endothermic)   is off set by favorable entropy change
     
Decreases Decreases (less disorder Only in unfavorable entropy change
(Exothermic) in products than reactants is offset by favorable heat change
     
Increases Decreases No
(Endothermic)    
43
Entropy Calculations (S)
  • Entropy is a QUANTITATIVE measure of the disorder
    of a system
  • Units J/Kmol

44
Standard Entropy (S0)
  • 25oC 298 K
  • Pressure (for gasses) 101.3 kPa

45
Standard Entropy Changes
  • DS0 S0 (products) S0 (reactants)

46
Example
  • 2NO O2 ? 2NO2
  • What is the standard state of entropy for this
    reaction at STP
  • S0 for NO 210.6 J/Kmol
  • S0 for O2 205.0 J/Kmol
  • S0 for NO2 240.5 J/Kmol
  • DS0 S0 (products) S0 (reactants)

47
Gibbs Free Energy Change DG
  • The maximum amount of energy that can be coupled
    to another process to do useful work
  • DG DH TDS
  • DH change in Enthalpy
  • DS change in Entropy
  • T temperature in Kelvins

48
Gibbs Free Energy Change DG
  • DG is negative in spontaneous processes (energy
    is lost)
  • DG is positive in nonspontaneous processes
    (energy is gained)
  • DG 0 for elemental substances
  • A reaction that is nonspontaneous under one set
    of conditions may be spontaneous under another
    set of conditions

49
Gibbs Free Energy Change DG
  • DG0 DH0 TDS0
  • DG0 DG0 (products) DG0 (reactants)

50
Example
  • N2 (g) 3H2 (g) ? 2 NH3 (g)
  • DG 16.64 kJ/mol
  • S0 N2 191.5 kJ/mol
  • S0 H2 130.6 kJ/mol
  • S0 NH3 192.5 kJ/mol
  • Calculate DH0
  • DG0 DH0 TDS0
  • DS0 S0 (products) S0 (reactants)

51
Rate Laws
  • The rate of a reaction depends in part on the
    concentrations of the reactants

52
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53
Rate Laws
  • Expresses the rate of reaction to the
    concentration of the reactants

54
Rate Laws
  • A ? B
  • Rate DA k x A
  • Dt
  • Specific rate constant (k) for a reaction
  • A molar concentration
  • A? B quickly, k value will be large
  • A ? B slowly, k value will be small

55
First Order Reaction
  • The reaction rate is directly proportional to the
    concentration of only one reactant
  • A? B

56
First Order Reaction
57
Double-Displacement Reactions
  • aA bB ? cC dD
  • Rate k AaBb
  • If BOTH a and b 1 than the reaction is 1st
    order A and1st order B 2nd order overall
  • The overall order is the sum of the exponents for
    an individual reaction (for simple one step
    reactions)

58
Example
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