SC.O.CII.2: Students will demonstrate knowledge, understanding and applications of scientific facts, concepts, principles, theories and models as delineated in the objectives. demonstrate an understanding of the interrelationships among physics, chemistry, biology, earth/environmental sciences and astronomy. apply knowledge, understanding and skills of science subject matter/concepts to daily life experiences.

SC.O.CII.2.1: identify types of binding forces such as: ionic, covalent, metallic, and van der Waals forces (including London) and relate binding forces to state, structure, and properties of matter.

 Covalent Bonds
 Dehydration Synthesis
 Ionic Bonds
 Phase Changes

SC.O.CII.2.2: investigate the valence bond including the concepts of hybridization of orbitals, resonance, and formation of sigma and pi bonds and demonstrate an understanding of the VSEPR theory.

 Charge Launcher
 Coulomb Force (Static)
 Covalent Bonds
 Electron Configuration
 Ionic Bonds
 Pith Ball Lab

SC.O.CII.2.4: relate Avogadro?s hypothesis and its relation to the mole concept.

 Stoichiometry

SC.O.CII.2.5: define changes of state, including critical temperatures and triple points, based on the kinetic molecular theory.

 Collision Theory
 Freezing Point of Salt Water
 Temperature and Particle Motion

SC.O.CII.2.6: calculate concentration and explain the effect of changing concentration on the colligative properties of solutions.

 Colligative Properties
 Freezing Point of Salt Water

SC.O.CII.2.7: identify oxidation numbers for ions and for any element in a compound to calculate the electron movement in a redox reaction and calculate the voltage using the Nernst equation.

 Bohr Model of Hydrogen
 Covalent Bonds
 Electron Configuration
 Element Builder
 Ionic Bonds

SC.O.CII.2.9: use experimental data and graphical analysis to determine reactant order, rate constants, and reaction rate laws, calculate the rate of reaction and explain the effect of temperature on rate changes.

 Collision Theory
 Force and Fan Carts

SC.O.CII.2.13: calculate molar masses from gas density, freezing-point, and boiling-point measurements.

 Freezing Point of Salt Water

SC.O.CII.2.14: identify weak electrolytes; define pH, pOH, pK, Ka, Kb, Kw, ionization constant, percent ionization, Ksp; calculate pH and pOH; measure pH with indicator papers and electronic meters; recognize salts that undergo hydrolysis and write a reaction for the ion with water and interpret a titration curve to identify the equivalence point don?t forget buffers.

 Balancing Chemical Equations
 Chemical Equation Balancing
 Solubility and Temperature
 Stoichiometry
 pH Analysis: Quad Color Indicator

SC.O.CII.2.15: perform stoichiometric calculations to produce values for theoretical yield and to decide the limiting reactant of a given chemical reaction.

 Limiting Reactants
 Stoichiometry

Correlation last revised: 3/29/2010

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