Continuation of CHEM 1111. Atomic structure and properties; stoichiometry; gas, liquid, and solid state; chemical bonding; solutions; chemical kinetics and equilibria; thermodynamics; acids and bases; electrochemistry; descriptive chemistry. Laboratory fee.
After studying all materials and resources presented in the course, the student will be able to:
1. State the characteristics of liquids and solids.
2. Articulate the importance of intermolecular interactions and predict trends in physical properties.
3. Identify the characteristics of acids, bases, and salts, and solve problems based on their quantitative relationships.
4. Identify and balance oxidation-reduction equations, and solve redox problems.
5. Determine the rate of a reaction and its dependence on concentration, time, and temperature.
6. Apply the principles of equilibrium to aqueous systems using Le Châtelier’s Principle to predict the effects of
concentration, pressure, and temperature changes on equilibrium mixtures.
7. Analyze and perform calculations with the thermodynamic functions, enthalpy, entropy, and free energy.
8. Discuss the construction and operation of galvanic and electrolytic electrochemical cells, and determine standard and
non--‐standard cell potentials.
9. Describe the collision theory of chemical kinetics and determine the rate of reaction from appropriate data.
10. Produce rate laws from experimental data and use rate laws to determine reactant concentrations, rate constants,
11. Know how to use and manipulate the Arrhenius equation and relate rate laws to reaction mechanisms.