C.1.2: Determine the properties and quantities of matter such as mass, volume, temperature, density, melting point, boiling point, conductivity, solubility, color, numbers of moles, and pH (calculate pH from the hydrogen-ion concentration), and designate these properties as either extensive or intensive.
C.1.5: Describe solutions in appropriate concentration units (be able to calculate these units) such as molarity, percent by mass or volume, parts per million (ppm), or parts per billion (ppb).
C.1.6: Predict formulas of stable ionic compounds based on charge balance of stable ions.
C.1.8: Use formulas and laboratory investigations to classify substances as metal or nonmetal, ionic or molecular, acid or base, and organic or inorganic.
C.1.9: Describe chemical reactions with balanced chemical equations.
C.1.10: Recognize and classify reactions of various types such as oxidation-reduction.
C.1.13: Use the principle of conservation of mass to make calculations related to chemical reactions. Calculate the masses of reactants and products in a chemical reaction from the mass of one of the reactants or products and the relevant atomic masses.
C.1.15: Given a chemical equation, calculate the mass, gas volume, and/or number of moles needed to produce a given gas volume, mass, and/or number of moles of product.
C.1.19: Use titration data to calculate the concentration of an unknown solution.
C.1.20: Predict how a reaction rate will be quantitatively affected by changes of concentration.
C.1.21: Predict how changes in temperature, surface area, and the use of catalysts will qualitatively affect the rate of a reaction.
C.1.23: Write a rate law for a chemical equation using experimental data.
C.1.27: Describe chemical changes and reactions using sketches and descriptions of the reactants and products.
C.1.28: Explain that chemical bonds between atoms in molecules, such as H2, CH4, NH3, C2H4, N2, Cl2, and many large biological molecules are covalent.
C.1.29: Describe dynamic equilibrium.
C.1.30: Perform calculations that demonstrate an understanding of the gas laws. Apply the gas laws to relations between pressure, temperature, and volume of any amount of an ideal gas or any mixture of ideal gases.
C.1.31: Use kinetic molecular theory to explain changes in gas volumes, pressure, and temperature (Solve problems using pV=nRT).
C.1.32: Describe the possible subatomic particles within an atom or ion.
C.1.33: Use an element's location in the Periodic Table to determine its number of valence electrons, and predict what stable ion or ions an element is likely to form in reacting with other specified elements.
C.1.36: Describe the nature of ionic, covalent, and hydrogen bonds and give examples of how they contribute to the formation of various types of compounds.
C.1.37: Describe that spectral lines are the result of transitions of electrons between energy levels and that these lines correspond to photons with a frequency related to the energy spacing between levels by using Planck's relationship (E=hv).
C.1.38: Distinguish between the concepts of temperature and heat.
C.1.39: Solve problems involving heat flow and temperature changes, using known values of specific heat and latent heat of phase change.
C.1.41: Describe the role of light, heat, and electrical energies in physical, chemical, and nuclear changes.
C.1.43: Calculate the amount of radioactive substance remaining after an integral number of half-lives have passed.
Correlation last revised: 1/20/2017