Download Advance Chemistry Outline First Semester Unit 1 (10 days) – Getting

Advance Chemistry Outline
First Semester
Unit 1 (10 days) – Getting Started
Guidelines
Safety
Science Fair Criteria
Formula Writing/Nomenclature
Ionics
Binary Molecular
Acids
Introduction to Graphing
Paper
Calculator
Lab – Density of a Liquid (Graphical Analysis)
Unit 2 (8 days) – Math and Measurements
Significant figures
Scientific Notation
Metric Units
Density
Temperature Conversions
Dimensional Analysis
Lab – Celsius to Fahrenhiet (ASIM)
Unit 3 (8 days) Matter and Energy
Classifying Matter
Properties and Change
Energy/Specific Heat
Lab – Endothermic / Exothermic Reactions (ASIM)
Lab – Energy Content of Foods (ASIM)
Unit 4 (10 days) Atomic Structure
Atomic History and experiments
Isotopes
Average Atomic Mass
Quantum mechanical model
Orbital Notation
Electron Configuration (periodic table
Lewis Dot notation for Atoms
Quantum Numbers (values and assigning)
Predicting oxidation states
Exceptions to electron configuration
Dry Lab – Dry Erase Periodic Table Activity (ASIM)
Lab – Flame Test (ASIM)
Unit 5 (8 days) Periodic Properties
Atomic Radii
Ionic Radii
First ionization energy
Second ionization energy
Electron Affinity
Lab – Periodic Trends: Graphs and Straws (ASIM)
Lab – Chemicool People (ASIM)
Unit 6 (8 days) Nomenclature/Formula Writing
Review: Ionic, Binary molecular, Acids
Organics (alkanes, alkenes, alkynes, alcohols)
Lab – Esterfication (ASIM)
Unit 7 (10 days) Moles and Composition
Stoichiometry
Moles
Mole calculations with mole map
Percent composition
Empirical formula
Molecular formulas
Combustion analysis
Molarity
Lab – Standardization of NaOH (ASIM)
Unit 8 (12 days) Equations and Stoichiometry
Balancing equations
Types of reaction (including special cases)
Stoichiometry
Mass-mass, mass-vol, vol-vol
Percent yield
Limiting reactancts
Lab – Chemical Reactions (LTF)
Lab – Aspirin Synthesis (ASIM)
Lab – Using Stoichiometry to Identify a Reaction
Second Semester
Unit 9 (12 days) Bonding and Molecular Geometry
Ionic and covalent bonding
Lewis structures for molecules
Exceptions to the octet rule
Molecular geometry
Bond angles
Resonance
Hybrid orbitals
Sigma and Pi bonds
Polarity
Intermolecular forces
[Complex ions]
Lab – Molecular Shapes and Polarity (ASIM)
Lab – Evaporation and Intermolecular forces (ASIM)
Unit 10 (12 days) Gas Laws
Kinetic theory
Boyles, Charles, Gay-Lussac’s Laws
Dalton’s Law of Partial Pressures
Graham’s Law
Ideal Gas Law
Gas Density and molecular mass
Lab – Boyle’s Law (ASIM)
Lab – Graham’s Law (ASIM)
Lab – Determination of Molar mass by vapor density
(ASIM)
Unit 11 (6 days) Liquids and Solids
Phase diagrams
Change of state calculations
Lab – Mixing of warm and cold water (ASIM)
Lab – Hess’s Law (ASIM)
Lab – Specific heat of metals (ASIM)
Unit 12 (12 days) Solutions
Dissolving process
Precipitation Reactions
Net Ionic equations
Concentrations
Colligative properties
Molar mass determination by freezing point
depression
Lab – Color of Chemistry (ASIM)
Lab – Identification of Solution (ASIM)
Unit 13 (10 days) Kinetic and Equilibrium
Rates of Reaction
Determining Rate Laws from data
Graphical determination of reaction orders
Mechanisms
Equilibrium concepts
Calculating Kc and Kp
Le Chatlier’s Principle
RICE tables
Lab – Crystal Violet (ASIM)
Lab – Ka Determination
Lab – Le Chatlier’s Principle
Unit 14 (10 days) Acid/Base Equilibrium
Acid/Base definitions
Calculation of pH
Ka and Weak acid calculations
Titrations
Hydrolysis
Lab – 39 Drops (ASIM)
Lab – Phosphoric acid content in colas (ASIM)
Lab – Strong Acid/Strong Base Titration
Unit 15 (5 days) Introduction to
Electrochemistry
Assigning oxidation numberas
Balancing redox equations in acidic and basic
solutions
Dry Lab – Balancing redox Reactions
Unit 16 (5 days) Nuclear Chemistry
Fission and fusion
Nuclear decay
Half lives
Unit 17 (5 days) Thermodynamics
Enthalpy
Entropy
Gibb’s Free Energy