CHEM& 163: General Chem w/Lab III

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Class Program
Chemistry
Distribution
Lab Science
Credits 5 Lecture Hours 38 Lab Hours 33

The final course in a three-quarter series examining the principles of General Chemistry with the primary emphasis on inorganic chemistry. Topics include acid-base chemistry, chemical equilibria, solubility, nuclear reactions, and electrochemistry. An introduction to organic chemistry and an introduction to inorganic qualitative analysis are included. A portion of the laboratory component is devoted to inorganic qualitative analysis..

Prerequisites

Successful completion of CHEM& 162 or instructor permission.

Quarters Offered
Spring
Course Outcomes

Upon successful completion of the course, students should be able to demonstrate the following knowledge or skills:

  1. Predict the effect of disturbances to an acid-base equilibrium.
  2. Produce a titration curve for a specific weak acid, weak base system.
  3. Determine the solubility product constant (Ksp) from experimental data.
  4. Predict concentrations based on Ksp.
  5. Apply the first and second laws of thermodynamics to chemical systems.
  6. Calculate Gibb’s Free Energies and predict spontaneity.
  7. Balance Redox reactions in acidic and basic environments.
  8. Predict cell voltages from tables of standard potentials.
  9. Identify the principle forms of radioactive emission.
  10. Calculate half-life from decay rates.
  11. Perform Mass – Energy calculations.
  12. Describe bonding in metals.
  13. Predict the chemistry and bonding patterns of main group elements.
  14. Recognize the primary types of organic compounds and assign systematic names to simple organic compounds.
  15. Identify organic acids, aldehydes, ketones, ethers, and amines.
Institutional Outcomes
IO2 Quantitative Reasoning: Students will be able to reason mathematically.
Course Content Outline
  • Acid ionization equilibria
    Acid – Base properties of salts
    Ion effects
    Buffers
  • Solubility product constant
    Precipitation calculations
    Complex ion formation and solubility
  • Thermodynamics
    Enthalpy and Entropy
    Free Energy
  • Electrochemistry
    Balance Oxidation – Reduction reactions in acid and base solution
    Voltaic cells
    Electrolysis
  • Chemistry of the main group elements
    Metallic bonding
    Main group chemistry by family
  • Nuclear chemistry
    Bombardment reactions
    Radioactive decay
    Rates and half lives
  • Organic chemistry
    Nomenclature of alkanes, alkenes, and alkynes
    Typical reactions
    Functional groups