Presentation is loading. Please wait.

Presentation is loading. Please wait.

Single Step Rate Laws. Rate Law A  B where, Rate = -1 x ∆A and Rate = 1 x ∆B 1 ∆t 1 ∆t Or: Rate = -1 x ∆A = 1 x ∆B 1 ∆t 1 ∆t.

Published byAron Gregory Modified over 9 years ago

Similar presentations

Presentation on theme: "Single Step Rate Laws. Rate Law A  B where, Rate = -1 x ∆A and Rate = 1 x ∆B 1 ∆t 1 ∆t Or: Rate = -1 x ∆A = 1 x ∆B 1 ∆t 1 ∆t."— Presentation transcript:

1 Single Step Rate Laws

2 Rate Law A  B where, Rate = -1 x ∆A and Rate = 1 x ∆B 1 ∆t 1 ∆t Or: Rate = -1 x ∆A = 1 x ∆B 1 ∆t 1 ∆t

3 Reaction Rate Proportional to the [concentration] of reactants raise to a power = to their coefficients in a balanced equation Rate ∝ [Reactants] coefficients Rate = k[reactants] coefficients K: – unique based on reaction – Depends on temperature

4 Order of Reactant = to the coefficient of a reactant in a balanced equation =the exponent of the reactant in the rate law Use these reactant coefficients to determine overall order of reaction = sum (+) of all the exponents in a rate law

5 Example aA + bB  cC + dD Rate ∝ [A]a[B]b Rate = k [A]a[B]b Order of A = a Order of B = b Order of Reaction = a+b

6 Graphs Order can be used to predict the shape of: Concentration vs. Time Graph Rate vs. Concentration Graph

7 Zero Order Rxn rate independent of reactant concentration (insert graphs from single step handout)

8 First Order Reaction rate ∝ concentration (ie. Rate decreases, concentration decreases) (insert graph)

9 Second Order Rate increases exponentially as concentration increases

10 2NO  N 2 O 2 a)Write a rate law b)Determine the order of the reaction c)Determine k if R = mol/L ∙ s when [NO] = 2.1 mol/L d)Find the new R value if temperature is unchanged and [NO] = 1.2 mol/L e)How does the value of R change if the [NO] is tripled?

11 Assume [NO] = 1 Then, rate = k[1] 2 = 1 x k If [NO] is tripled, then the new [NO] = 3 where Rate = k[3] 2 = 9 x k When the [NO] is tripled, rate increases by a factor of 9!

12 a) Write a rate law 2NO  N 2 O 2 Rate = k[NO] 2 (reactants only!)

13 b) Determine the order of the reaction Rate = k[NO] 2 Order = 2

14 c) Determine k if R = mol/L ∙ s when [NO] = 2.1 mol/L K = rate = 4.3 mol/L ∙ s = 0.98L/mol∙s [NO] 2 (2.1 mol/L) 2 Rate = k[NO] 2 Rate = k [NO] 2

15 d) Find the new R value if temperature is unchanged and [NO] = 1.2 mol/L Rate = k[NO] 2 = (0.98 L/mol ∙ s)(1.2mol/L) 2 = 1.4 mol/L ∙ s Don’t forget BEDMAS and order of operations!

Download ppt "Single Step Rate Laws. Rate Law A  B where, Rate = -1 x ∆A and Rate = 1 x ∆B 1 ∆t 1 ∆t Or: Rate = -1 x ∆A = 1 x ∆B 1 ∆t 1 ∆t."

Similar presentations

KINETICS -REACTION RATES

KINETICS -REACTION RATES
Rate Law and Stoichiometry A + 2B C. Explain the scientific process connecting a chemical reaction to its experimental rate law, and to the prediction.

Rate Law and Stoichiometry A + 2B C. Explain the scientific process connecting a chemical reaction to its experimental rate law, and to the prediction.
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.
Relating [Reactant] and Rate In this section we will assume that the [products] does not affect the rate Therefore, for the general equation aX + bY 

Relating [Reactant] and Rate In this section we will assume that the [products] does not affect the rate Therefore, for the general equation aX + bY 
Chpt 12 - Chemical Kinetics Reaction Rates Rate Laws Reaction Mechanisms Collision Theory Catalysis HW: Chpt 12 - pg. 580-592, #s Due Fri Jan. 8.

Chpt 12 - Chemical Kinetics Reaction Rates Rate Laws Reaction Mechanisms Collision Theory Catalysis HW: Chpt 12 - pg , #s Due Fri Jan. 8.
The Progress of Chemical Reactions

The Progress of Chemical Reactions
Chapter 13 Chemical Kinetics

Chapter 13 Chemical Kinetics
Ch. 14: Chemical Equilibrium I.Introduction II.The Equilibrium Constant (K) III.Values of Equilibrium Constants IV.The Reaction Quotient (Q) V.Equilibrium.

Ch. 14: Chemical Equilibrium I.Introduction II.The Equilibrium Constant (K) III.Values of Equilibrium Constants IV.The Reaction Quotient (Q) V.Equilibrium.
16-2: The Law of Chemical Equilibrium. Remember… Chemical equilibrium is achieved when the rate of the forward rxn is equal to the rate of the reverse.

16-2: The Law of Chemical Equilibrium. Remember… Chemical equilibrium is achieved when the rate of the forward rxn is equal to the rate of the reverse.
Chemical Equilibrium A Balancing Act.

Chemical Equilibrium A Balancing Act.
Chemical Equilibrium Objectives: 1. Describe a reversible reaction. 2. Define chemical equilibrium and explain how it is achieved. 3. Explain Le Chatelier's.

Chemical Equilibrium Objectives: 1. Describe a reversible reaction. 2. Define chemical equilibrium and explain how it is achieved. 3. Explain Le Chatelier's.
Chapter 18 Reaction Rates and Equilibrium

Chapter 18 Reaction Rates and Equilibrium
1 Kinetics Chapter 15. 2 The study of rxn rates Rxn rate =  concentration/  time Rxn rate =  concentration/  time Example: Example: 2N 2 O 5  4NO.

1 Kinetics Chapter The study of rxn rates Rxn rate =  concentration/  time Rxn rate =  concentration/  time Example: Example: 2N 2 O 5  4NO.
16.1 Rate expression 16.1.1 Distinguish between the terms rate constant, overall order of reaction and order of reaction with respect to a particular reactant.

16.1 Rate expression Distinguish between the terms rate constant, overall order of reaction and order of reaction with respect to a particular reactant.
Chemistry 40S Unit 3: Chemical Kinetics Lesson 4.

Chemistry 40S Unit 3: Chemical Kinetics Lesson 4.
EQUILIBRIUM BASICS Chapter 14.1-14.3. Lesson Objectives Know -Factors that affect/don’t affect a reaction reaching equilibrium -K is equilibrium constant.

EQUILIBRIUM BASICS Chapter Lesson Objectives Know -Factors that affect/don’t affect a reaction reaching equilibrium -K is equilibrium constant.
Outline:1/31/07 n n Turn in Research Symposium Seminar reports – to me n n Exam 1 – two weeks from Friday… n Today: Start Chapter 15: Kinetics Kinetics.

Outline:1/31/07 n n Turn in Research Symposium Seminar reports – to me n n Exam 1 – two weeks from Friday… n Today: Start Chapter 15: Kinetics Kinetics.
Chapter 13: Chemical Kinetics CHE 124: General Chemistry II Dr. Jerome Williams, Ph.D. Saint Leo University.

Chapter 13: Chemical Kinetics CHE 124: General Chemistry II Dr. Jerome Williams, Ph.D. Saint Leo University.
Rate Law 5-2 an expression which relates the rate to the concentrations and a specific rate constant.

Rate Law 5-2 an expression which relates the rate to the concentrations and a specific rate constant.

Similar presentations

Ads by Google