Advanced Chemistry Daily Plans

Advanced Chemistry Daily Plans

Lesson Lesson Subject/Topic Time Allotment, Backgrouond/Text

Number Identification periods References

I Class Expectations 1 Handout/LMS

A. Class procedures

B. Testing/grading

C. Study procedures

D. Calendar and LMS

II. Safety and Laboratory Requirements Handout/LMS

A. Guidelines .5

1. Rules

2. Contract

B. Decision and interpretations .5

in safety situations

C. Labeling and MSDS 1

D. Equipment specificity 1

E. Safety Quiz . .5

III. Foundations

A. Matter 4 AP—1.1-1.5

1. Various types of classification

2. Properties and changes IB—A.1-A.3,

3. P, V, T relationships (labs) G.1-G.4, Ch 4

4. Periodic table and terminology

B. Measurement 3 AP—1.6-1.14

1. Measurement and Sig Figs IB—IB Handout

2. Error analysis

3. Dimensional Analysis

C. Nomenclature and formula writing 3 AP—2.1-2.4, 4.12

1. Acids, bases, salts IB—D.1-D.5

2. MAI, PAI, complex ions

D. Moles and Stoichiometry 14

1. Mole relationships AP—2.5-2.12, Ch.12,14

a. molar volume and Ideal Gas Law (lab) IB—E.1-E.2, F.1-F.2,

b. solubility and colligative properties (lab) Ch. 4, 8

2. Equations

a. metathesis and redox identification AP—3.1-3.8, 4.1-4.11

and balancing (lab) IB—H.1-H.2, I.1-I.4.

b. quantitative relationships in reactions (lab) K.1-K.3, L.1-L.3.,

M.1-M.3

E. Assessment 6

IV. Lab Skills Handout

A. Density and specific gravity (lab) .5

B. Filtration and separation (lab) .5

C. Burets and pipets (lab) 1

D. Analytical balance (lab) . . .5

E. CBL (lab) .5

F. Spec 20 and solution preparation (lab) 2

Investigation

V. Atomic Structure and Periodicity AP—Ch. 5, 6, 26

A. P, N, E, A, Z and notations 1 IB—B.1-B.4, Ch.1, 17

B. Historical contributions to atomic theory (lab) 2

C. Modern atomic theory 2

1. Quantum numbers

2. Electron configuration/notation/dot structures

D. Periodic table history .5

E. Periodicity and electronic structure .5

F. Periodic trends (lab) . .5

G. Exceptions to predicted trends .5

H. Nuclear behavior 1

I. Assessment and test-type analysis 3

VI. Bonding, Molecular Structure, Inter-particle Attractions AP—Ch. 7, 8, 9

A. Conditions and tendencies for bonding .5 IB—C.1-C.3, Ch. 2,3

B. Covalent bonding 3

1. Bond formation

2. Particle shapes and resultant properties

3. Dot structures

4. Dry lab for particle shape and properties (lab)

C. Ionic bonding .5

1. MAI and PAI

2. Properties

D. Coordinate covalent bonding 2 AP—Ch. 25

1. Formation

2. Nomenclature/shape

3. Working with concepts (lab)

E. Inter-particle attractions 2

1. Dipole

2. Hydrogen bonding

3. Dispersion forces

4. Properties due to inter-particle forces (lab)

F. Assessment and test-type analysis 3

VII. Energetics AP—Ch. 13, 15.1-15.4

A. Endo and exothermic changes (chemical .5 IB—Ch. 6

and physical)

B. Heating and cooling curves 1

C. Calorimetry (labs) 3

D. Test-type analysis 1

E. Assessment 2

VIII. Thermodynamics AP—Ch. 15.5-15.16

A. Enthalpy—heats of formation and bond energies 1 IB—Ch.7

B. Hess’s Law (lab) 3

C. Entropy and free energy 1

D. Test-type analysis 1

E. Assessment 2

77 hrs----End Semester One

IX. Rate and Equilibrium (+ --IB options’ study) AP—Ch. 16, 17, 20

A. How rate is measured .5 IB—Ch.9, 13

B. Factors affecting rate (chemical and physical) .5

C. Determine a rate law .5

D. Integrated rate law .5 +

E. Graphic interpretation of rate 1 +

F. Equilibrium condition .5

G. Le Chatelier’s principle 1

H. Mass-action expression .5

I. Determine and use Keq for gaseous and solutes 2+

J. Test-type analysis 1+

K. Assessment 2

Investigation

X. Acids and Bases (+ --IB options’ study) AP—Ch. 18, 19 20

A. Identify acids and bases 1 IB—Ch. 10, 11

B. Historical theories of acids/bases 1

C. Bronsted-Lowry theory and characteristics 1

D. Kw and pH 1

E. Weak acid/base equilibria 2+

F. Acid/base reactions 1

G. Titration and indicators (lab) 3+

H. Buffers (lab) 1+

I. Test-type analysis 1

J. Assessment 2

XI. Electrochemistry (+ --IB options’ study) AP—Ch. 21

A. Redox reactions (identify and balance review) 1 IB—12

B. EMF series 1

C. Voltaic cell systems (lab) 3

D. Nernst equation (lab) 2+

E. Electrolytic cell systems 1

F. Faraday’s law and electroplating 1+

G. Test-type analysis 1

H. Assessment 2

XII. Organic (10-14) AP—Ch. 27, 28

IB—Ch. 18, 19

XIII-a Descriptive Chemistry, Lab Processes and Equation Writing (10) Handout

XIII-b Options (10) Personal Research