Chemistry 30 Unit 4: Equilibrium.

Slides:



Advertisements
Similar presentations
Equilibrium Chapter 15. At room temperature colorless N 2 O 4 decomposes to brown NO 2. N 2 O 4 (g)  2NO 2 (g) (colorless) (brown)
Advertisements

Chemical Equilibrium Chapter 18. Chemical Equilibrium Happens to any reversible reaction in a closed system Happens to any reversible reaction in a closed.
Chemical Equilibrium. Reversible Reactions A reaction that can occur in both the forward and reverse directions. Forward: N 2 (g) + 3H 2 (g)  2NH 3 (g)
EQUILIBRIUM. Many chemical reactions are reversible: Reactants → Products or Reactants ← Products Reactants form Products Products form Reactants For.
Equilibrium I love chemistry!!!. What is Equilibrium? A dynamic condition in which 2 opposing changes occur at equal rates in a closed system Ex. A phase.
1 CHEMICAL EQUILIBRIUM. Chemical Equilibrium Chemical Reactions Types; What is equilibrium? Expressions for equilibrium constants, K c ; Calculating K.
Chemical Equilibrium The study of reactions that occur in both directions.
CHEMICAL EQUILIBRIUM Qualitative Aspects. H 2 O (g) H 2(g) + 1/2 O 2(g) ä 1. The double arrow represents an equilibrium reaction. ä 2. The equation for.
Equilibrium Chemistry. Equilibrium A + B  AB We may think that all reactions change all reactants to products, or the reaction has gone to completion.
Chapter 18 Equilibrium A + B  AB We may think that all reactions change all reactants to products, or the reaction has gone to completion But in reality,
SCH 4U1 UNIT 4 EQUILIBRIUM.
Reversible Reactions Reactions are spontaneous if  G is negative. If  G is positive the reaction happens in the opposite direction. 2H 2 (g) + O 2 (g)
Chemical Equilibrium Chapter A State of Dynamic Balance All chemical reactions are reversible. All chemical reactions are reversible. When both.
Chemical Equilibrium. Lesson Objectives Describe the nature of a reversible reaction. Define chemical equilibrium. Write chemical equilibrium expressions.
EQUILIBRIUM. Equilibrium Constant (K Values)  The equilibrium constant (Keq) is a number showing the relationship between the concentration of the products.
CHEMICAL EQUILIBRIUM. INTRODUCTION 1. In the reaction: I 2 (g) + H 2 (g)  2 HI(g) at 150 o C, the original color of the mixture is: at 150 o C, the original.
The Concept of Equilibrium
Chapter 18 Lesson Starter
Chemical Equilibrium.
Briony Brundidge AP Chemistry
Wednesday, January 11th Take out your notes
Chem 30: Equilibrium Le Chatelier.
Chapter 15 Chemical equilibria.
Chemical Equilibrium.
Chapter 13: Chemical Equilibrium
Reversible Reactions 6-1
THE EQUILIBRIUM CONSTANT CHAPTER 18 PAGES
DO NOW Pick up notes. Turn in Concentration and Reaction Rate lab.
Chapter 9 Reaction Rates and Chemical Equilibrium
Chapter 15 Chemical Equilibrium
Chemistry 100 Chapter 15 Equilibrium.
Equilibrium.
Writing and Solving Equilibrium Constant Expressions
EQUILIBRIUM.
10.2 Chemical Equilibrium In most chemical reactions, the reactants are not completely converted to products because a reverse reaction takes place.
Chapter 13 Reaction Rates and Chemical Equilibrium
Chemical Equilibrium.
Reaction Rates and Equilibrium
Topics 7 & 17: Chemical Equilibrium
EQUILIBRIUM TIER 3 Deduce the equilibrium constant expression Kc from the equation for a homogeneous reaction Outline the characteristics of chemical and.
Chemical Equilibrium
Chapter 15 Chemical Equilibrium
Chemical Equilibrium.
Chemical Equilibrium.
Chemical Equilibrium.
Equilibrium.
Unit 7: Chemical Equilibrium
The student will learn:
“Products over reactants, the coefficients are the powers”
Reaction Rates & Equilibrium
13.1 CHEMICAL EQUILIBRIUM Cato Maximilian Guldberg and his brother-in-law Peter Waage developed the Law of Mass Action.
Section 8.1—Equilibrium What is equilibrium?.
Reaction Rates and Equilibrium
Unit 11 Equilibrium (Chapter 17)
Chemical Equilibrium.
Chapter 13 Reaction Rates and Chemical Equilibrium
Kinetics and Equilibrium
Equilibrium.
Equilibrium.
EQUILIBRIUM.
Unit 11 Equilibrium (Chapter 17)
Reaction Rates and Equilibrium
Write an equilibrium expression for the chemical equation.
Equilibrium Systems.
Equilibrium.
Equilibrium Concept Most chemical reactions do not continue until all of the reactants are used up. Most reactions are ongoing, reversible processes, preceding.
Reaction Rates and Equilibrium
Chemical Equilibrium.
Chemical Equilibrium Chemistry, The Central Science, 10th edition
Presentation transcript:

Chemistry 30 Unit 4: Equilibrium

Reversibility of Chemical Reactions Chemical reactions can either be reversible or not reversible: Examples of irreversible chemical reactions: Boil and egg, rusting, cooking, burning Examples of reversible chemical reactions: CuSO4∙5H2O ⇌ CuSO4 + 5H2O (blue) (white) 2NO2 ⇌ N2O4 The double arrow “⇌” indicates that a chemical reaction is reversible.  

Equilibrium In a reversible reaction, when the forward step proceeds at the same rate as the reverse step, the reaction has reached equilibrium. Most physical changes are reversible, so many can exist at equilibrium.

Equilibrium Example: Water in a closed beaker can represent a system at equilibrium: What is the forward ‘reaction’ that is occurring?   What is the reverse ‘reaction’ that is occurring? What is the overall reaction that is occurring? If the beaker was uncapped, equilibrium would not exist. Why?

Equilibrium At equilibrium, the concentrations of all reactants and products remain constant with time as a result of the forward and reverse reactions occurring at equal rates. As reactants are consumed, the rate of the forward reaction decreases; as products are formed, the rate of the reverse reaction increases. Dynamic Equilibrium is where the reaction appears to have stopped because as products are made by reactants, reactants are being made by the products.

Equilibrium As an example of dynamic equilibrium, think of bailing out a leaking rowboat. Water leaking into the boat is analogous to a forward reaction, and our pouring buckets of water overboard are analogous to the reverse reaction. As we bail water out, we reach a point of equilibrium at which the water is bailed out just as fast as it leaks in. The level of water in the boat remains constant, analogous to the constant concentration of reactants and products at equilibrium.

Equilibrium Reaction Example: Change in the concentrations of N2O4 and NO2 with time in two experiments at 25°C: 2NO2 ⇌ N2O4 In both experiments, a state of chemical equilibrium is reached when the concentrations level off at constant values: [N2O4] = 0.0337 M; [NO2] = 0.0125 M. (a) Only N2O4 is present initially. In experiment (a), [NO2] increases as [N2O4] decreases. ; (b) only NO2 is present initially. In experiment (b), [N2O4] increases as [NO2] decreases.

Analogy Lab No formal lab write up needed

How to Identify when Equilibrium Exists There are two important characteristics of a system at equilibrium The equilibrium can be approached from either side of the reaction equation. At equilibrium the concentration of the reactants and products do not change. Signs that a system is at equilibrium: It must be a closed system at a constant temperature Constant concentration indicated by constant color, pressure, volume, and electrical conductivity.

The Equilibrium Constant Expression When equilibrium is established in a closed system there is a relationship between the concentrations of the reactants and the concentration of the products. This relationship is a constant ratio called the equilibrium constant and represented by the symbol Keq. For the general reaction represented by the equation: a A + b B c C + d D The concentrations of reactants and products at equilibrium must conform to the equilibrium constant expression: Keq = = Where A, B, C, D are the concentrations (M) of the reactants and products and the exponents (a, b, c, d) are the coefficients in the balanced equation. Keq is dimensionless and its value changes with the temperature of the system.

Five trials involving the reaction (equilibrium concentrations) Example: Determine the value for Keq for the reaction: H2(g) + I2(g) ⇌ 2 HI(g) using the five trials shown below. Trial 1: Trial 2: Trial 3: Five trials involving the reaction H2(g) + I2(g) 2 HI(g) (equilibrium concentrations) Trial [HI] [H2] [I2] Keq 1 0.156 0.0220 2 0.750 0.106 3 1.00 0.820 0.0242

Equilibrium constant expressions do not include terms for any reactants or products present as pure solids or pure liquids because their concentrations do not change in a reaction.   Example: Write an equilibrium expression for the following: CaCO3(s) ⇌ CaO(s) + CO2(g)

Example: Write the equilibrium expressions for each of the following: a. Fe3O4(s) + H2(g) ⇌ 3 FeO(s) + H2O(g) b. Ag2S(s) ⇌ 2 Ag+(aq) + S2-(aq)

See Calculating Keq Assignment