Jan 7

W

1

Class Organization

1.1 Getting Started:  Some Key Terms

(1.2-1.5 To be covered in recitation)

3-8

8-27

Jan 9

F

1,2

1.6 Uncertainty and Error

2.1 Mixtures

2.2 Lavoisier

2.3 Dalton’s Theory

27-33

40-43

43-46

46-48

Jan 12

M

2

2.4 The Nuclear Model

2.5 Modern Atomic Theory

48-51

51-56

Jan 14

W

2

2.6 Elements & Periodic Table

2.7 Compounds and Bonding

56-59

59-63

Set 1

(Chp. 1)

Jan 16

F

2

2.8 Formulas

2.9 Mixtures

63-73

74-77

Jan 19

M

MARTIN LUTHER KING DAY (No Class)

Set 2

(Chp. 2)

Jan 21

W

3

3.1 The Mole and Avagadro’s Number

3.2 Empirical Formulas

86-95

95-101

Jan 23

F

3

3.3 Balancing Equations

3.4 Calculating Amounts of Reactant and Product

101-105

105-109

Jan 26

M

3

3.4 Limiting Reactant; Reaction Yield

3.5 Solution Stoichiometry

110-114

114-120

Set 3

(Chp. 3)

Jan 28

W

3

3.5 Solution Stoichiometry

Catch up/review

114-120

Jan 30

F

4

4.1  Water as Solvent

4.2 Reactions in Water

4.3 Precipitations

131-137

137-138

138-140

Feb 2

M

1-3

Hour Test 1

Feb 4

W

4

4.4 Acid-Base Reactions

140-146

Feb 6

F

4

4.5 Oxidation-Reduction Reactions

146-154

Feb 9

M

4

4.7 Reversible Reactions

162-164

Set 4

(Chp. 4)

Feb 11

W

5

5.1 States of Matter

5.2 Gasses and Gas Pressure

173-176

176-180

Feb 13

F

5

5.3 Gas Laws: Boyle, Charles & Ideal Law.

5.4 Density and Molar Mass of Gas

5.5 Stoichiometry of Gas Reactions

180-189

189-195

195-197

Feb 16

M

5

5.6 Kinetic Theory of Gasses

5.7 Deviation from Ideal Behavior

197-206

206-210

Set 5

(Chp. 5)

Feb 18

W

6

6.1 Forms of Energy. Energy Conservation

6.2 Enthalpy and Heats of Reaction

220-228

228-233

Feb 20

F

6

6.3 Calorimetry

6.4 Stoichiometry in Thermochemistry

233-236

236-238

Feb 23

M

6

6.5 Hess’s Law

6.6 Heats of Reaction and Heats of Formation

238-240

240-245

Set 6

(Chp. 6)

Feb 25

W

6

Catch up/review

Feb 27

F

7

7.1 The Nature of Light

254-262

Mar 1

M

4-6

Hour Test 2

Mar 3

W

7

7.2 Atomic Spectra and the Bohr Model

262-269

Mar 5

F

7

7.3 Wave Particle Duality

269-273

Mar 8-12

SPRING BREAK

Mar 15

M

7

7.4 The Quantum Mechanical Model. Quantum Numbers

273-281

Set 7

(Chp. 7)

Mar 17

W

8

8.1 Periodic Table.

8.2 Quantum numbers and the Pauli Principle

288-290

290-295

Mar 19

F

8

8.3 Aufbau

295-304

Mar 22

M

8

8.4 Trends in Behavior from the Periodic Table

8.5 Trends in Reactivity

304-311

311-320

Set 8

(Chp. 8)

Mar 24

W

9

9.1 Lewis Dot Structures

9.2 Ionic Bonds & Born Haber cycle

326-330

330-337

Mar 26

F

9

9.3 Covalent Bonding & Bond energy

337-344

Mar 29

M

7-8

Hour Test 3

Test 2 Retake (Chapters 4-6)  

Mar 31

W

9

9.4 Electronegativity

9.5 Metallic Bonding

344-349

Apr 2

F

10

10.1 Lewis Structure

357-368

Apr 5

M

10

10.2 Heats of Reaction from Lewis Structures

368-370

Set 9

(Chp. 9)

Apr 7

W

10

10.3 Electron Pair Repulsion and Molecular Shape

370-381

Apr 9

F

10

10.4 Polarity

381-385

Apr 12

M

11

11.1 Covalent Bonding & Hybridization

392-400

Set 10

(Chp. 10)

Apr 14

W

11

11.2 Types of Covalent Bond

400-404

Apr 16

F

11

11.3 Introduction to Molecular Orbital Theory

404-414

Apr 19

M

9-10

Hour Test 4

Set 11

(Chp. 11)

Apr 21

W

12

12.1 Phase Changes

12.2 Quantitative Aspects of Phase Changes

420-423

423-431

Apr 23

F

Review and Catch-up

Apr 26

M

FINAL EXAM  (Room 102 Bellamy)

Block Exam Time ( 12:30-2:30 p.m.)