State Frameworks
2.a.1: Physical properties (e.g., melting points, densities, boiling points) of a variety of substances
Density Experiment: Slice and Dice
Density Laboratory
2.a.3: Three states of matter in terms of internal energy, molecular motion, and the phase transitions between them
Bohr Model of Hydrogen
Bohr Model: Introduction
2.c.1: Properties and interactions of the three fundamental particles of the atom
2.c.2: Laws of conservation of mass, constant composition, definite proportions, and multiple proportions
2.d.1: Three major types of radioactive decay (e.g., alpha, beta, gamma) and the properties of the emissions (e.g., composition, mass, charge, penetrating power)
2.d.2: The concept of half-life for a radioactive isotope (e.g., carbon-14 dating) based on the principle that the decay of any individual atom is a random process
2.e.1: Covalent, ionic, and metallic bonding
2.e.3: Valence electrons and bonding atoms
Covalent Bonds
Electron Configuration
Ionic Bonds
2.g.1: Lewis dot structures for simple molecules and ionic compounds
Electron Configuration
Element Builder
3.b.1: Atomic number, atomic mass, mass number, and number of protons, electrons, and neutrons in isotopes of elements
3.b.3: Chemical characteristics of each region
3.b.4: Periodic properties (e.g., metal/nonmetal/metalloid behavior, electrical/heat conductivity, electronegativity, electron affinity, ionization energy, atomic/covalent/ionic radius)
3.c.1: Single displacement, double displacement, synthesis (combination), decomposition, disproportionation, combustion, or precipitation.
Balancing Chemical Equations
Chemical Equations
Dehydration Synthesis
Equilibrium and Concentration
3.c.2: Products (given reactants) or reactants (given products) for each reaction type
Balancing Chemical Equations
Chemical Equations
Equilibrium and Concentration
3.d.1: Difference between chemical reactions and chemical equations
Chemical Equations
Equilibrium and Concentration
3.d.2: Formulas and calculations of the molecular (molar) masses
Chemical Equations
Limiting Reactants
Stoichiometry
Temperature and Particle Motion
4.d.1: Specific heat as it relates to the conservation of energy
4.d.3: Energy (in calories and joules) required to change the state of a sample of a given substance, using its mass and its heat of vaporization or heat of fusion.
4.d.4: Endothermic or exothermic changes
4.e.2: Chemical reaction rates affected by temperature, concentration, surface area, pressure, mixing, and the presence of a catalyst
4.e.4: LeChatelier?s Principle
Equilibrium and Concentration
Equilibrium and Pressure
5.a.1: Properties of acids and bases, including how they affect indicators and the relative pH of the solution
pH Analysis
pH Analysis: Quad Color Indicator
5.a.2: Formation of acidic and basic solutions
pH Analysis
pH Analysis: Quad Color Indicator
5.a.3: Definition of pH in terms of the hydronium ion concentration and the hydroxide ion concentration
pH Analysis
pH Analysis: Quad Color Indicator
Titration
pH Analysis
pH Analysis: Quad Color Indicator
Correlation last revised: 9/16/2020