UNIT 6: IONIC & METALLIC BONDING
HOW DO IONS STICK TOGETHER?
STANDARD 6.1 IONIC BONDS
I can explain how ionic bonds form and describe their properties.
Benchmark: Workbook Problems
STANDARD 6.2 NOMENCLATURE OF IONIC COMPOUNDS
I can name ionic compounds, including those that contain a transition metal or a polyatomic ion.
Benchmark: POGIL & Workbook Problems
- Chem Team's Entire Nomenclature Menu
- Tyler DeWitt on Ionic Formulas
- Tyler DeWitt on Naming Ionic Compounds with Transition Metals
- Naming Ionic Compounds Practice Problems
- What is a Polyatomic Ion?
STANDARD 6.3 METALLIC BONDING
I can explain how metallic bonds form and their properties.
Benchmark: Workbook Problems
UNIT 7 COVALENT BONDING AND STRUCTURE
HOW DO NON-CHARGED ATOMS AND MOLECULES STICK TOGETHER?
STANDARD 7.1 COVALENT BONDS
I can explain how covalent bonds form and describe their properties.
Benchmark: Workbook Problems
STANDARD 7.2 NAMING COVALENT COMPOUNDS
I can name binary covalent compounds.
Benchmark: POGIL
STANDARD 7.3 LEWIS ELECTRON DOT STRUCTURES
I can write Lewis Dot Structures.
Benchmark: Workbook Problems
STANDARD 7.4 MOLECULAR GEOMETRY
I can name the shape of simple molecules.
Benchmark: POGIL
STANDARD 7.5 BOND POLARITY
I can classify and describe a bond using electronegativity values.
Benchmark: Problems
- 8.5 Slides
- Too Much Chem on Bond Polarity
- Crash Course Chemistry on Polarity
- ChemGuide Reading on Electronegativity and Polarity
STANDARD 7.6 MOLECULAR POLARITY
I can determine if a molecule is polar.
Benchmark: POGIL & Workbook Problems
STANDARD 7.7 INTERMOLECULAR FORCES
I can describe and compare the types of intermolecular forces.
Benchmark: Mini Lab
UNIT 8: THE MOLE
HOW DO WE COUNT AND MEASURE ATOMS AND COMPOUNDS?
STANDARD 8.1 MOLE CONVERSIONS
I can convert between atoms, mass, and moles.
Benchmark: Workbook Problems
- Slides for 9.1
- Hank Reviews the Mole
- Moles, Molecules, & Grams Worksheet with KEY
- Tyler DeWitt on Moles, Atoms, & Molecules
STANDARD 8.2 MOLAR MASS CONVERSIONS
I can convert between molecules (units,) mass, and moles.
Benchmark: Workbook Problems
- Slides for 9.2 & 9.3
- Molar Mass Worksheet with KEY
- Molecular Calculations Worksheet with KEY
- Tyler DeWitt on Grams to Moles and Moles to Grams
STANDARD 8.3 PERCENT COMPOSITION
I can calculate the percent composition of each element in a sample.
Benchmark: Workbook Problems
- Slides for 9.2 & 9.3
- Percent Composition Worksheet with KEY
- Tyler DeWitt on % Comp
- Website with Practice!
STANDARD 8.4 CHEMICAL COMPOSITION: CALCULATING FORMULAS
I can determine THE empirical and molecular formulas of compounds.
Benchmark: Workbook Problems
- Tyler DeWitt on Empirical & Molecular Formulas
- Tyler DeWitt on Calculating Molecular Formulas from Empirical Formulas
unit 9: cHEMICAL EQUATIONS
HOW DO WE DESCRIBE A CHEMICAL REACTION?
STANDARD 9.1 BASIC REACTIONS
STANDARD 9.2 BALANCING EQUATIONS
UNIT 10: stoichiometry
HOW DO WE MEASURE chemical reactions?
standard 10.1 General stoichiometry
i can solve for the amount of a product or reactant in a given unbalanced reaction.
standard 10.2 Percent Yield Stoichiometry
I can determine the % yield of the products given an unbalanced reaction.
standard 10.3 limiting reactant stoichiometry
i can determine what reactant is limiting given an unbalanced reaction.
standard 10.4 Gas Stoichiometry
I can use stoichiometry to determine the volume of a gas associated with a reaction.
- Crash Course Review of Stoichiometry
- Tyler DeWitt on Gas Stoichiometry Part 1
- Tyler DeWitt on Gas Stoichiometry Part 2
- Unit 12 Slides
unit 11: Gases
Standard 11.1 Kinetic Molecular Theory
I can describe gas behavior using the Kinetic Molecular Theory
standard 11.2 PRESSURE CALCULATIONS
I can convert between units of pressure and determine the pressure over a specified area.
standard 11.3 gas relationships
I can identify the relationships between pressure, volume, temperature, and number of moles.
- Tyler DeWitt on Charles's Law
- Be Lazy! Don't Memorize the Gas Laws!
- Tyler DeWitt on Boyle's Law
- Unit 12 Slides
standard 11.4 the ideal gas law
I can define the ideal gas law both conceptually and mathematically and use it to determine expected temperatures, moles of a gas, pressure, and volumes.
- Gas Properties Interactive
- Hank on the Ideal Gas Law & on Ideal Gas Law Problems
- Tyler DeWitt on the Ideal Gas Law
- Where did R come from?
- Unit 12 Slides
standard 11.5 partial pressure
I can use Dalton’s Law of partial pressures to determine the total pressure and partial pressure of a system.
unit 12: changing phases
standard 12.1 Describing & Visualizing Heat
I can describe heat and can identify the melting point, boiling point, and phase of a substance at a specified temperature using a heating or cooling curve.
standard 12.2 LAtent Heat
I can describe and use both the heat of fusion and the heat of vaporization to determine information about phase changes for a substance.
standard 12.3 Vapor Pressure
I can determine if a substance would have a relatively high or low vapor pressure and can relate that to its boiling point and intermolecular forces.
- Base Points: Vapor Pressure POGIL
- Hank on Vapor Pressure (Skip to Middle)
Standard 12.4 phase diagrams
I can determine what state a compound is in at a specific temperature and pressure when given a phase diagram and determine what phase change is occurring when the pressure or temperature is changed.
unit 13: solutions
standard 13.1 describing solutions
I can determine the mass percent of a solution and can use the mass percent of a solution to find .
- Crash Course Chemistry: Solutions
- How to Solve Mass % Problems
- Key for 14.1 Practice Problems
- Slides from Class 14.1-14.2
Standard 13.2 Solubility
I can describe what happens when an ionic compound and a non-ionic compounds dissolve in water and predict if a solute will dissolve in a solvent.
Standard 14.3 Solubility Rules
When given the reactants for a chemical reaction, I can identify the products and their phases.
- How to use solubility rules to predict precipitate reactions (video).
- Precipitate Reactions with Hank Green
- Key for 14.3 Practice Problems
- Slides from Class 14.3
standard 13.4 Molarity and molality
I can determine the molarity and molality of solutions.
- Molarity Practice with Answers
- Molality Practice with Answers
- Key for 14.4 Practice Problems
- Slides from Class 14.4-14.5
Standard 13.5 Solution stoichiometry
I can determine the amount of products or reactants of a reaction that occurs in a solution.
- Solution Stoichiometry Practice with Answers
- Key for 14.5 Practice Problems
- Slides from Class 14.4-14.5
standard 13.6 colligative properties
I can define colligative properties and calculate freezing-point depression and boiling-point elevation.
Unit 14 Reaction rates and equilibrium
standard 14.1 collision theory
I can describe the chemical reaction process using the collision theory.
standard 14.2 reaction rates
I can identify how temperature, a catalyst, and change in concentration can affect the reaction rate.
standard 14.3 equilibrium
I can describe what is occurring when a reaction is at equilibrium.
standard 14.4 keq
I can calculate the Keq of a reaction at equilibrium and use the Keq to determine specific concentrations of reactants and products.
Standard 14.5 le CHATELIER'S principle
I can use Le Chatelier's principle to determine which way a reaction will proceed when a stressor is introduced to the system.
standard 14.6 ksp
I can define Ksp and calculate it for a given reaction.
UNIT 15 Acids and bases
15.1 Types and properties of acids and bases
I can identify acids and bases by type and know the properties of each.
15.2 naming acids
I can name an acid given its molecular formula, and write the molecular formula if given the name of an acid. \
15.3 Autoionization of Water and Kw
I can describe how water autoionizes and calculate the concentration of H+ or OH-- ions in a solution.
15.4 pH & pOH
I can identify if a solution is acidic or basic based on the pH or pOH and can calculate the pH and pOH of a solution.
15.5 Titration Problems
I can calculate the concentration of an unknown acid or base when given the titration information.
15.6 Conjugate Acids and Bases
I can identify conjugate acid-base pairs.
Unit 16 Reduction & Oxidation
17 Slides with Bonus Acid/Base Slides
16.1 Activity Series of Metals
I can determine which metal is more active, and how that would affect a chemical reaction.
16.2 Oxidation states
I can determine the oxidation state of each element in a reaction.
16.3 Redox reaction identification
I can determine what is being oxidized and what is being reduced in a chemical equation.
16.4 Balancing Redox Reactions
I can balance redox reactions in acidic and basic solutions.
16.5 Voltaic Cells
I can identify the parts of a voltaic cell as well as the direction of electron flow.