Course Objectives
- Page ID
- 174158
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- Outcome 1: Predict and write balanced net ionic equations for acid-base and precipitation reactions.
- Outcome 2: Analyze and solve stoichiometry problems including limiting reactants, elemental analyses, and material balances in aqueous solution.
- Outcome 3: Solve classical gas law problems and interpret the behavior of gases using the kinetic theory, and predict circumstances under which non-ideal behavior becomes important.
- Outcome 4: Derive energies and enthalpies of physical and chemical processes from calorimetric data, and solve problems involving enthalpies of formation and Hess' law.
- Outcome 5: Derive and use classical and modern relationships for electromagnetic radiation.
- Outcome 6: Interpret electron density and probability plots for hydrogen-like orbitals, interpret atomic emission spectra to atomic energy levels, apply the quantum theory to polyelectronic atoms, and relate electron configurations to atomic properties.
- Outcome 7: Predict, for given molecules or polyatomic ions: 1. orbital hybridization and orbital geometry 2. molecular geometry 3. types and numbers of covalent bonds in molecules 4. bond length, bond angles, and bond energies 5. polarity, resonance, and formal charges
- Outcome 8: Use molecular orbital energy diagrams for diatomic molecules to determine bond order and magnetic properties of a molecule.
- Outcome 9: Solve initial-value equilibrium problems including weak acid dissociation, interpret equilibrium constants, and use Le Chatelier's principle to predict the effect of a disturbance on an equilibrium system.
- Outcome 10: Correlate physical properties of solid substances with interparticle attractions.
- Outcome 11: Construct and interpret a Born-Haber cycle.
- Outcome 12: Describe and use laboratory techniques, including proper recording of laboratory data, the proper use of weighing balances, spectrophotometers, and other equipment, the proper disposal of chemical waste, and safety procedures and precautions.