Presentation is loading. Please wait.

Presentation is loading. Please wait.

 The rate expression is an equation  Determined experimentally  Shows dependence of rate on concentrations of reactants  Rate is found whilst changing.

Published byAustin Blake Modified over 9 years ago

Similar presentations

Presentation on theme: " The rate expression is an equation  Determined experimentally  Shows dependence of rate on concentrations of reactants  Rate is found whilst changing."— Presentation transcript:

1  The rate expression is an equation  Determined experimentally  Shows dependence of rate on concentrations of reactants  Rate is found whilst changing concentration of a reactant Rate Expression

2

3 Order of Reaction

4 Experimental Data

5

6  If doubling concentration has no effect then zero order (w.r.t. that reactant)  If doubling concentration doubles rate then first order  If doubling concentration quadruples rate then it is second order  What are orders for A, B, and C on page 171?  Therfore what is rate expression? Order of Reaction

7  Please read pages 170 to 173  Make any notes you need.  Then try questions 1 to 7 from page 173. Reading and Questions

8  Most reactions occur in a number of steps  At each stage only two particles collide successfully  Intermediates therfore exist  Slowest step is the rate determing step Reaction Mechanism

9 Rate determing Step

10 Reaction Mechanism

11 Unimolecular step

12 Bimolecular

13  See page 176, figure 618 Relating mechanism to Rate Expression

14 Activation Energy

15 Maxwell-Boltzmann distribution

16  The Activation energy can be determined using an equation  The Arrhenius Equation  This shows the effect of temperature on the rate constant for a reaction Arrhenius Equation

17 The Arrhenius Equation

18  The rate constant, k, depends exponentially on the temperature  This is why temperature has a large effect on reaction rate  Using logs and rearranging the equation….. Arrhenius

19 Arrhenius equation converted to…

20  What is intercept ?  Gradient ?  Y and x axis ? Compare to y=mx + c

21 Ea can be determined graphically….

22  So the activation energy can be found by measuring the rate at different temperatures, with all the other conditions unchanged and then plotting In(rate) against 1/T (in Kelvin) Finding Ea

Download ppt " The rate expression is an equation  Determined experimentally  Shows dependence of rate on concentrations of reactants  Rate is found whilst changing."

Similar presentations

Chemical Kinetics Reaction rate - the change in concentration of reactant or product per unit time.

Chemical Kinetics Reaction rate - the change in concentration of reactant or product per unit time.
Topic 16 Kinetics Rate expressions Reaction mechanism

Topic 16 Kinetics Rate expressions Reaction mechanism
CHEMICAL KINETICS CHAPTER 17, Kinetics Fall 2009, CHEM 1310 1.

CHEMICAL KINETICS CHAPTER 17, Kinetics Fall 2009, CHEM
The Rate of Chemical Reactions 1.Rate Laws a.For generic reaction: aA + bB cC + dD b. Rate = k[A] x [B] y [Units of Rate always = M/s = mol/L s] c.Details.

The Rate of Chemical Reactions 1.Rate Laws a.For generic reaction: aA + bB cC + dD b. Rate = k[A] x [B] y [Units of Rate always = M/s = mol/L s] c.Details.
16-1 Copyright ©The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Chapter 14 Kinetics: Rates and Mechanisms of Chemical.

16-1 Copyright ©The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Chapter 14 Kinetics: Rates and Mechanisms of Chemical.
Chemical kinetics: a branch of chemistry which deal about the rate of reaction. Rate of reaction: The change in concentration of reactant or product.

Chemical kinetics: a branch of chemistry which deal about the rate of reaction. Rate of reaction: The change in concentration of reactant or product.
Chemical Kinetics © 2009, Prentice-Hall, Inc. Temperature and Rate Generally, as temperature increases, so does the reaction rate. This is because k is.

Chemical Kinetics © 2009, Prentice-Hall, Inc. Temperature and Rate Generally, as temperature increases, so does the reaction rate. This is because k is.
Chapter 16: Kinetics Rates and Mechanisms of Chemical Reactions 16.1 Factors That Influence Reaction Rate 16.2 Expressing the Reaction Rate 16.3 The Rate.

Chapter 16: Kinetics Rates and Mechanisms of Chemical Reactions 16.1 Factors That Influence Reaction Rate 16.2 Expressing the Reaction Rate 16.3 The Rate.
Activation Energy and Catalyst. Temperature and Rate Generally, as temperature increases, so does the reaction rate. This is because k is temperature.

Activation Energy and Catalyst. Temperature and Rate Generally, as temperature increases, so does the reaction rate. This is because k is temperature.
Collision Theory. Reaction Coordinate Diagrams Multistep Reactions.

Collision Theory. Reaction Coordinate Diagrams Multistep Reactions.
Collision Theory. Reactions are fastest with… 1.Large Ea, Large T 2.Low Ea, Large T 3.Large Ea, Low T 4.Low Ea, Low T.

Collision Theory. Reactions are fastest with… 1.Large Ea, Large T 2.Low Ea, Large T 3.Large Ea, Low T 4.Low Ea, Low T.
Collision Theory. Reaction Coordinate Diagrams Multistep Reactions.

Collision Theory. Reaction Coordinate Diagrams Multistep Reactions.
CHE 112 - MODULE 3 CHAPTER 15 LECTURE NOTES. Chemical Kinetics  Chemical kinetics - study of the rates of chemical reactions and is dependent on the.

CHE MODULE 3 CHAPTER 15 LECTURE NOTES. Chemical Kinetics  Chemical kinetics - study of the rates of chemical reactions and is dependent on the.
Chapter 14 Chemical Kinetics

Chapter 14 Chemical Kinetics
I can demonstrate an understanding of the terms ‘rate of reaction’, ‘rate equation’, ‘order of reaction’, ‘rate constant’, ‘half-life’, ‘rate-determining.

I can demonstrate an understanding of the terms ‘rate of reaction’, ‘rate equation’, ‘order of reaction’, ‘rate constant’, ‘half-life’, ‘rate-determining.
Chapter 15 Kinetics. Kinetics Deals with the rate of chemical reactions Deals with the rate of chemical reactions Reaction mechanism – steps that a reaction.

Chapter 15 Kinetics. Kinetics Deals with the rate of chemical reactions Deals with the rate of chemical reactions Reaction mechanism – steps that a reaction.
Chemical Kinetics Collision Theory: How reactions takes place

Chemical Kinetics Collision Theory: How reactions takes place
16.2.1 Explain that reactions can occur by more than one step and that the slowest step determines the rate of the reaction (rate- determining step) 16.2.2.

Explain that reactions can occur by more than one step and that the slowest step determines the rate of the reaction (rate- determining step)
Lecture 18 (Ch 18) HW: Ch 18: 1, 3, 15, 41 Kinetics pt 2: Temperature Dependence of Rate Constants.

Lecture 18 (Ch 18) HW: Ch 18: 1, 3, 15, 41 Kinetics pt 2: Temperature Dependence of Rate Constants.
Ch 15 Rates of Chemical Reactions Chemical Kinetics is a study of the rates of chemical reactions. Part 1 macroscopic level what does reaction rate mean?

Ch 15 Rates of Chemical Reactions Chemical Kinetics is a study of the rates of chemical reactions. Part 1 macroscopic level what does reaction rate mean?

Similar presentations

Ads by Google