1020 - Condensed States |
1010 - Identify some differences between ionic and molecular substances. |
1020 - Classify forces between molecules as dipole-dipole forces, dispersion forces, or hydrogen bonds. |
1030 - Based on molecular shape and formula determine what intermolecular forces a substance has. |
1040 - Explain the effects that intermolecular forces have on melting and boiling points. |
1050 - Explain why nonpolar solutes tend to dissolve in nonpolar solvents and polar and ionic solutes tend to dissolve in polar solvents. |
1025 - Solubility |
1060 - Know the definition of precipitation and solubility. |
1070 - Predict the equilibrium concentrations of strong and weak electrolytes in solutions. |
1080 - Understand the relationship between electrolyte concentrations and conductivity in solutions. |
1090 - Predict the equilibrium concentrations of strong and weak acid/bases in solutions. |
1100 - Predict the water solubility of nitrate, acetate, sulfate, bromide, chloride, and iodide salts. |
1110 - Predict the water solubility of sulfide, carbonate, phosphate, and hydroxide salts. |
1120 - Predict the water solubility of alkali metal and ammonium salts. |
1030 - Concentration |
1010 - Calculate the molarity of a solute in a solution. |
1020 - Use molarity as a conversion factor between mass and moles. |
1040 - Relate the molarity and volume of a solution after to dilution the molarity and volume before. Given three solve for the other. |
1035 - Reactions in Solution |
1150 - Recognize single displacement, double displacement, combination, and decomposition reactions. |
1160 - Understand gas evolution, precipitation and neutralization form non-electrolytes. |
1170 - Identify and give examples of combustion, acid-base, neutralization, and precipitation reactions. |
1180 - Write molecular, ionic, and net ionic equations given a description of a chemical reaction. |
1190 - Determine the net ionic equation from the molecular equation. |