Reaction Rates - PowerPoint PPT Presentation

About This Presentation
Title:

Reaction Rates

Description:

Reaction Rates AP chapter 14.3 – PowerPoint PPT presentation

Number of Views:59
Avg rating:3.0/5.0
Slides: 18
Provided by: nju79
Category:

less

Transcript and Presenter's Notes

Title: Reaction Rates


1
Reaction Rates
  • AP chapter 14.3

2
Reaction Rates
  • Describe how quickly concentration of reactants
    or products are changing
  • Units typically DM/Dt for aqueous reactants and
    products
  • Could be units of DP/Dt for gaseous products
  • Effective concentration solids and liquids does
    not change over the course of a reaction, so it
    will be more difficult to model these changes

3
Reaction equations
  • RatekAmBn
  • A is a symbol roughly meaning concentration
    of (in units of molarity or partial pressure)
  • More precisely, it means Activity of or
    effective concentration. Remember, that even
    in an aqueous solution, not all of the ions are
    available to react.
  • This is given only as one example
  • The equation for each type of reaction must be
    tested experimentally. The values of m and n are
    determined experimentally

4
Reaction orders
  • RatekAmBn
  • The reaction above is m order for reactant A,
    n order for reactant B, and mn order for the
    reaction overall. Reaction order describes the
    influence which increasing concentration has on
    the reaction rate

5
You Try
  • Describe the reaction orders for the following
    rate equation
  • RatekA2B1
  • Sketch the shape of the graph showing the
    relationship between
  • A and rate
  • B and rate
  • If A and B are measured in molar units, what
    is the unit for the rate constant?

6
Whats the relationship between concentration and
time?
  • Note that as time passes, the concentrations
    change, so the rate changes.
  • Based on this analysis will rate increase or
    decrease as time passes?
  • The general solutions for these relationships
    require some calculus, but even without calculus,
    you can learn the equations for some simple cases.

7
Integrated rate laws
  • These show the relationship between A and time
    over the course of a single experiment
  • First order RatekA
  • First order ln A -kt lnA0
  • Other integrated rate laws
  • Sketch the graph of lnA against t

8
Collision model
  • Reactions occur when molecules collide
  • Even for unimolecular reactions, collisions are
    necessary to change the kinetic energy of
    colliding particles
  • Example 3 O2 hn ? 2 O3
  • Example Cl2 F2 ? 2 ClF

9
Distribution of kinetic energies
  • Temperature is proportional to average kinetic
    energy for a collection of molecules
  • However, the kinetic energy of any individual
    molecule could be a little less or a little more.
  • Distribution of molecular energies is a
    predictable function
  • http//intro.chem.okstate.edu/1314F00/Laboratory/G
    LP.htm

10
Reactions at a molecular level
  • Molecules only react if they possess enough
    combined energy to overcome the activation
    energy.
  • The orientations of the molecules also matters.
  • http//www.mp-docker.demon.co.uk/chains_and_rings/
    mechanisms/index.html

11
Arrhenius equation
  • Relates Temperature, reaction rate and activation
    energy.
  • Various forms of the Arrhenius equation

12
Reaction pathway diagrams
  • Show the relative potential energy of reactants,
    products, intermediates and transition states.
  • intermediates are the various molecular forms
    which appear as reactant becomes product.
  • Depending on context, intermediate could mean
    only the stable intermediates, or could also
    include short lived (transient) transition
    states
  • Energy diagram

13
Catalysts
  • Catalysts are substances which speed up a
    reaction, without being altered or consumed in
    the process
  • Catalysts may be temporarily altered as part of
    one of the reaction intermediates.
  • How Catalysts work

14
How catalysts work at a chemical level
  • Catalysts lower activation energy, either by
    bringing reactants closer together, or otherwise
    stabilizing the reaction transition state.
  • A catalyst speeds up both forward and reverse
    reactions, so the mixture comes to equilibrium
    more rapidly. A catalyst can not change the
    equilibrium concentrations
  • What do you think would be the result of adding a
    catalyst to a mixture already at equilibrium?

15
Enzymes
  • Enzyme is a term for a catalyst found in, or
    obtained from a biological system.
  • Enzymes are primarily made of protein, but may
    also include metal ions, nucleic acids, or other
    structural materials.
  • How enzymes work

16
Non-enzyme catalysts
  • Both enzyme and non-enzyme catalysts are
    important in manufacturing processes, such as the
    synthesis of ammonia
  • Catalysts can be homogeneous (in the same phase
    as the reaction) or heterogeneous (a finely
    divided metal in solution, for example.

17
Heterogeneous catalysts
  • Why do you think heterogeneous catalysts must be
    finally divided?
  • What other methods do chemical engineers to
    increase the surface area of a catalyst?
Write a Comment
User Comments (0)
About PowerShow.com