Rouse Company Foundation Student Services Building

CHEM 103 Fundamentals of General Chemistry

Course topics include: matter and measurement, atomic structure, chemical bonding, molecular structure, chemical reactions, stoichiometry, gases, solutions, thermochemistry, kinetics, equilibrium, and nuclear reactions. The course provides an introduction to inorganic chemistry and general chemical principles for students in the allied health fields. Laboratory experiments require students to collect, analyze, and interpret data to identify unknown chemical substances or properties.

Credits

4

Prerequisite

Eligible to enroll in MATH 037 or MATH 070

Hours Weekly

3 hours lecture, 3 hours lab weekly

Course Objectives

  1. 1. Design and perform chemistry experiment(s) to investigate an assigned laboratory scenario and
    know and observe all safety rules.
  2. 2. Analyze and interpret data collected in the laboratory.
  3. 3. Communicate fundamental concepts in chemistry using appropriate vocabulary, units, symbols,
    and notations.
  4. 4. Apply chemical principles, scientific reasoning, and appropriate mathematical techniques to
    solve quantitative problems pertaining to, but not limited to, unit conversion, stoichiometry, gas
    laws, solutions, kinetics, equilibrium, thermochemistry, and nuclear reactions.
  5. 5. Apply chemical principles and scientific reasoning to answer qualitative questions pertaining to,
    but not limited to, atomic and molecular structure, chemical reactions, chemical bonding
    theories, molecular shapes and polarity, states of matter, and properties of matter.
  6. 6. Explain allied health applications of chemistry in terms of fundamental chemical principles.
  7. 7. Evaluate and explain the reasonableness of a solution to a problem.

Course Objectives

  1. 1. Design and perform chemistry experiment(s) to investigate an assigned laboratory scenario and
    know and observe all safety rules.
  2. 2. Analyze and interpret data collected in the laboratory.
  3. 3. Communicate fundamental concepts in chemistry using appropriate vocabulary, units, symbols,
    and notations.
  4. 4. Apply chemical principles, scientific reasoning, and appropriate mathematical techniques to
    solve quantitative problems pertaining to, but not limited to, unit conversion, stoichiometry, gas
    laws, solutions, kinetics, equilibrium, thermochemistry, and nuclear reactions.
  5. 5. Apply chemical principles and scientific reasoning to answer qualitative questions pertaining to,
    but not limited to, atomic and molecular structure, chemical reactions, chemical bonding
    theories, molecular shapes and polarity, states of matter, and properties of matter.
  6. 6. Explain allied health applications of chemistry in terms of fundamental chemical principles.
  7. 7. Evaluate and explain the reasonableness of a solution to a problem.