AP Chemistry Note Outline

AP Chemistry Note Outline Tuesday, September 24 - TEST

Chapter 4: Reactions

• Strong and Weak Electrolytes
• Types of Reactions Introduction
• Precipitation Reactions
• Formation of a Gas
• Acid-Base Reactions
• Oxides
• Hydrolysis
• Oxidation-Reduction Reactions
• Reaction Prediction--Overall

Goal:

To be able to predict the

products of a chemical reaction

and answer a simple question

about it.

Strong and Weak Electrolytes (4.2)

Definitions:

o  Strong Electrolyte

o  Weak Electrolyte

o  Nonelectrolyte

Types of Reactions Introduction

Reactions

*Oxide Rules:

1. nonmetal oxide and water → acid
2. metal oxide and water → base
3. nonmetal oxide + metal oxide → salt

Types of Reactions:

I. Reactions with no changes in Oxidation Numbers - Metathesis

A.  Precipitation OR the formation of a ______(4.4-6)

1.  Definition - the reaction of two ionic compounds to form an insoluble solid

2.  Writing Equations

a. Molecular Equation

Cd(NO3)2(aq) + Na2S(aq) g

b. Ionic Equations: All strong electrolytes are shown ionized

Cd2+(aq) + 2 NO3-(aq) + 2 Na+(aq) + S2-(aq) g

c. Net Ionic Equations:

Cd2+(aq) + S2-(aq) g

3. When a Weak Electrolyte is a Product

Molecular Equation

NaC2H3O2(aq) + HCl(aq) g

Ionic Equation

Na+(aq) + C2H3O2-(aq) + H+(aq) + Cl-(aq) g

Net Ionic Equation

C2H3O2-(aq) + H+(aq) g

4. What to do when a nonsoluble reactant is used:

Molecular Equation

Mg(OH)2(s) + 2 HCl(aq) g

Ionic Equation

Net Ionic Equation

YOU MUST LEARN THE SOLUBILITY RULES: THEY MUST BE MEMORIZED!!!

5. Examples:

a.  Solutions of strontium nitrate and sodium sulfate are mixed.

b.  A solution of copper (II) chloride is added to a solution of sodium sulfide.

c.  Solutions of sodium iodide and lead (II) nitrate are mixed

d.  A solution of copper (II) sulfate is added to a solution of barium hydroxide.

e.  Solutions of tri-potassium phosphate and zinc nitrate are mixed.

B. Formation of a Gas

1. There are four types of gases that can be formed.

a.

b.

c.

d.

2. Writing equations:

a. Molecular:

2 HCl(aq) + Na2S(aq) g

b. Ionic

c. Net Ionic

3. Examples:

a. Solid calcium carbonate is placed in hydrochloric acid.

b. Solutions of sodium hydroxide and ammonium nitrate are mixed.

c. Solid sodium sulfite is added to hydrobromic acid.

C. Acid – Base Reactions (Neutralization) (4.8)

1. Acid and a Base forms ______and a ______.

a. Hydrochloric acid reacts with sodium hydroxide

2. Anhydrides:

a. Acid anhydride

SO3(g) + H2O g

N2O5(g) + H2O g

b. Base anhydride

Na2O (s) + H2O g

CaO (s) + H2O g

d. Anydrides with an acid or base produce ______and a ______.

SO2 (g) + NaOH (aq) g

BaO (s) + HCl (aq) g

c. Metallic oxides + nonmetallic oxides g Salt

CaO(s) + SO2(g) g

D.  Hydrolysis – salts reacting with ______.

Example : KF(s) + H2O g

E. Some Decomposition Reactions

A. Base g metal oxide + water

Ca(OH)2 g CaO + H2O

B. Salt containing oxygen g metal oxide + nonmetal oxide

CaCO3 g CaO + CO2

C. Acid containing oxygen g water + nonmetal oxide

H2CO3 g H2O + CO2

F. Non-Redox Rxn Practice

1. Hydrogen sulfide is bubbled through a solution of silver nitrate.

1. Equal volumes of dilute equimolar solutions of sodium carbonate and hydrochloric acid are mixed.

1. Dilute acetic acid solution is added to solid magnesium carbonate.

1. Sulfur trioxide gas is added to excess water.

5.  Powdered magnesium oxide is added to a container of carbon dioxide gas.

6. Solid sodium acetate is added to water.
II. Oxidation-Reduction Reactions

Oxidation Numbers

Rules

1.  Free elements have oxidation states of 0

2.  Ions keep their charges

3.  Oxygen in a compound is –2 unless as peroxide (then it is –1)

4.  Fluorine is –1

5.  Hydrogen is +1 unless as a hydride (then it is –1)

6.  Sum of oxidation states equals charge of substance. If it is a compound than it is zero.

Oxidation State Practice

Definitions:

Oxidation -

Reduction -

Oxidizing Agent -

Reducing Agent -

Examples:

2Pb + 3O2 ® 2PbO + 2SO2

Cl2 + OH- ® ClO- + Cl- + H2O
Balancing Redox Reactions

Rules—Acid solution

1.  Write reactions as ½ reactions—One for the oxidation and one for the reduction

2.  Balance all elements except H and O

3.  Balance H with H+

4.  Balance O with H2O

5.  Balance Charge with e-

6.  Multiply reactions by factors such that the e- cancel

7.  Add both ½ reactions

Examples

MnO4- +_ Fe2+ ® Fe3+ + Mn2+ (acid)

SO42- + Cl- ® Cl2 + SO32-

Rules—Base solution

1.  Write reactions as ½ reactions—One for the oxidation and one for the reduction

2.  Balance all elements except H and O

3.  Balance H with H+

4.  Balance O with H2O

5.  Add OH- to both sides to cancel the H+

6.  Cancel out any extra water and OH-

7.  Balance Charge with e-

8.  Multiply reactions by factors such that the e- cancel

Add both ½ reactions

Al + MnO4- ® MnO2 + Al(OH)4-

Cl2 + MnO4- ® MnO2 + ClO-
Reactions when Oxidation Numbers do change

I. Rules for Oxidation Numbers

·  The oxidation number of any free element (an element not combined chemically with a different element) is zero, regardless of how complex its molecules might be.

·  The oxidation number for any simple, monoatomic ion is equal to the charge on the ion.

·  The sum of all the oxidation numbers of the atoms in a molecule or ion must be equal the charge of the particle.

·  In its compound, fluorine has an oxidation of -1

·  In its compounds, hydrogen has an oxidation number of +, except hen combined with metals when it is -1

·  In its compounds, oxygen has an oxidation number of -2, except in forming peroxides hen it is -1.

·  All Group I metals in compounds have a charge of +1

·  All Group II metals in compounds have a charge of +2

·  All Halogens have a charge of -1 when combined with metals in binary compounds

II. Balancing Redox Equations

A. Oxidation States Method (we use the half-reaction method)

1.  Assign oxidation numbers to atoms in equation

2.  Identify the substance oxidized and determine the number of electrons lost

3.  Balance the electrons gained

4.  balance the non redox substances by inspection

B. Half-Reaction (Acidic Solution)

1.  Divide the skeleton equation into half-reactions

2.  Balance atoms other than H & O

3.  Balance oxygen by adding H2O to the side that needs O

4.  Balance hydrogen by adding H+ to the side that needs H

5.  Balance the charge by adding electrons

6.  Make the number of electrons gained equal to the number lost and then add the two half-reactions

7.  Cancel anything that is the same on both sides.

C. Half-Reactions Method (Basic Solution)

1.  1-7 Same as B above

2.  Add to both sides of the equation the same number of OH- as there are H+

3.  Combine H+ and OH- to form H2O

4.  Cancel any H2O that you can

III. Types of Redox Reactions

A. Simple Redox

1. Hydrogen Displacement

Ca(s) + 2H2O(l) g Ca(OH)2(s) + H2

2. Metal Displacement

Zn(s) + CuSO4(aq) g ZnSO4(aq) + Cu(s)

3. Halogen Displacement

Cl2(g) + KBr(aq) g 2KCl(aq) + Br2(l)

4. Combustion

CH4(g) + 2O2(g) g CO2(g) + 2H2O(g)

B. Disportionation

This is where one substance both oxidizes and reduces

Cl2(g) + 2OH-(aq) g OCl-(aq) + Cl-(aq) + H2O(l)

C. Reactions involving oxoanions such as Cr2O72-

14H+(aq) + Cr2O72- + 6 Fe2+ g 2 Cr3+ + 7 H2O + 6 Fe3+

Prediction Practice with Redox

1. solid copper is added to a dilute nitric acid solution.

1. a solution of potassium permanganate is mixed with an alkaline solution of sodium sulfite.

1. ethanol is completely burned in air.

1. sodium metal is added to water.

1. hydrogen peroxide solution is added to a solution of iron(II) sulfate.

IV. Redox Reaction Prediction

Important Oxidizers Formed in reaction

MnO4- (acid solution) Mn+2

MnO4- (basic solution) MnO2

MnO2 (acid solution) Mn+2

Cr2O7-2 (acid) Cr+3

CrO4-2 Cr+3

HNO3, conc NO2

HNO3, dilute NO

H2SO4, hot conc SO2

Metallic Ions Metallous Ions

Free Halogens (F2, Cl2, Br2, I2) Halide ions (F-, Cl-, Br-, I-)

HClO4 Cl-

Na2O2 OH-

H2O2 O2

Important Reducers Formed in Reaction

Halide Ions Halogens

Free Metals Metal Ions

Metalous Ions Metallic ions

Nitrite Ions Nitrate Ions

Sulfite Ions SO42-

Free Halogens (dil, basic, sol) Hypohalite ions

Free Halogens (conc, basic sol) Halate ions

C2O42- CO2

·  Redox reactions involve the transfer of electrons. The oxidation numbers of at least two elements must change. Single replacement, some combination and some decomposition reactions are redox reactions.

·  To predict the products of a redox reaction, look at the reagents given to see if there is both an oxidizing agent and a reducing agent. When a problem mentions an acidic or basic solution, it is probably is redox.

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