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| Course: CHM152AA First Term: 2015 Fall
Final Term: Current
Final Term: 2018 Summer
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Lecture 4 Credit(s) 3 Period(s) 3.0 Load
0
Credit(s) 3 Period(s)
2.4 Load
Subject Type: AcademicLoad Formula: S - Standard Load |
| MCCCD Official Course Competencies | |||
|---|---|---|---|
| 1. Complete and balance redox equations. (I)
2. Describe the progress of a chemical reaction in terms of Collision Theory or Transition State Theory. (II) 3. Determine the order of a reaction with respect to a reactant and overall order and the rate law expression. (II) 4. Determine whether a proposed mechanism agrees with the rate law for a reaction. (II) 5. Describe the influence of various factors on reaction rate and on position of equilibrium. (II, III) 6. Write correct equilibrium expressions and calculate the value of K, or calculate concentrations of reactants and products at equilibrium. (III) 7. Solve problems involving solubility equilibria. (III) 8. Solve equilibrium problems involving weak acids, weak bases, and complex ions. (III) 9. State the three laws of thermodynamics. (IV) 10. Calculate changes in enthalpy, entropy, and free energy from appropriate thermodynamic data. (IV) 11. Predict the spontaneity of chemical reactions from thermodynamic data. (IV) 12. Solve problems involving Faraday`s Law of Electrolysis. (V) 13. Use the Nernst Equation to calculate cell potentials. (V) 14. Complete and write nuclear reactions. (VI) 15. Compare and contrast chemical and nuclear reactions. (VI) 16. Describe applications of radiochemistry. (VI) 17. Identify and evaluate chemical hazards and hazard warning signs (such as the 4-bar Hazardous Material Information System, the 4- diamond National Fire Protection Association System, and Material Safety Data Sheets). (I) 18. Cite the location and operation of common laboratory safety equipment. (I) 19. Measure and dispense reagents. (I) 20. Determine the mass of a given substance using an electronic balance. (I) 21. Use pH meters or sensors to measure the pH of solutions. (III) 22. Record quantitative and qualitative data, using the proper number of significant figures where appropriate. (III) 23. Perform dilutions to prepare solutions using volumetric glassware. (III) 24. Standardize solutions and analyze samples by performing titration experiments. (III) 25. Analyze collected data using graphical techniques. (I) 26. Prepare written reports, present data in a logical format, analyze data, and report conclusions. (I) 27. Use scientific measuring devices to obtain chemical data. (I) 28. Apply principles, concepts, and procedures of chemistry to lab experiments. (I) 29. Interpret chemical data generated by application of the scientific method. (I) 30. Use lab equipment properly and safely to perform a variety of chemical procedures and techniques.(III) | |||
| MCCCD Official Course Competencies must be coordinated with the content outline so that each major point in the outline serves one or more competencies. MCCCD faculty retains authority in determining the pedagogical approach, methodology, content sequencing, and assessment metrics for student work. Please see individual course syllabi for additional information, including specific course requirements. | |||
| MCCCD Official Course Outline | |||
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I. Chemical reactions: acid/base and redox
A. Acid/base definitions and reactions B. Oxidation numbers C. Balancing redox reactions II. Chemical kinetics A. Collision and transition state theories B. Factors that influence reaction rates C. Reaction order D. Reaction mechanisms III. Chemical equilibria A. Dynamic equilibria B. Reversible reactions C. Definition of equilibrium constants D. Calculations of equilibrium concentrations E. LeChatelier`s principle F. Gas phase equilibria G. Heterogeneous equilibria H. Acid-base equilibria I. Solubility equilibria J. Complex ion equilibria IV. Chemical thermodynamics A. Enthalpy changes and spontaneity B. Entropy and spontaneity C. Laws of thermodynamics D. Gibbs free energy E. Standard free energy F. Free energy and equilibrium V. Electrochemistry A. Electrolytic cells and Faraday`s law B. Voltaic cells and the Nernst equation VI. Nuclear chemistry A. Radioactivity B. Nuclear reactions C. Energy of nuclear reactions D. Applications of nuclear chemistry | |||
MCCCD Governing Board Approval Date: November 25, 2014 | |||