CHEME 2200

CHEME 2200

Course information provided by the Courses of Study 2022-2023.

Applications of quantum chemistry to (1) the interaction of electromagnetic radiation with matter for spectroscopy and strategic bond breaking and (2) the behavior of electrons in solids – insulators, conductors, and semiconductors. Quantum and statistical mechanics for classical thermodynamics – 1st and 2nd laws, phase equilibrium, chemical equilibrium, and heat pumps. Devising rate equations for chemical reactor design from experiment and theory – kinetic theory of gases and transition state theory.

When Offered Spring.

Prerequisites/Corequisites Prerequisite: MATH 2930, CHEM 3890, PHYS 2213, and ENGRD 2190.

Outcomes
  • Predict the outcome of electromagnetic radiation interacting with a substance – heating, chemical dissociation, or ionization.
  • Predict if a solid is an insulator, conductor, or semiconductor.
  • Understand the effects of doping a semiconductor for electronic devices – conduction paths, diodes, and transistors.
  • Analyze experimental data to obtain a rate equation.
  • Analyze a rate equation, an overall reaction, and chemical intuition to devise a mechanism of elementary chemical reactions for homogeneous and heterogeneous (solid-catalyzed) reactions.
  • Predict the spontaneity of a chemical process.
  • Devise a heat engine or heat pump and calculate the efficiency.
  • Analyze the phase behavior of a pure substance.
  • Analyze the phase behavior of a binary mixture.
  • Predict the spontaneity of a chemical process; design a chemical reactor with recycle.

View Enrollment Information

Syllabi: none
  •   Regular Academic Session.  Choose one lecture and one discussion.

  • 4 Credits Graded

  • 17906 CHEME 2200   LEC 001

    • MWF Olin Hall 245
    • Jan 23 - May 9, 2023
    • Duncan, T

  • Instruction Mode: In Person

  • 17907 CHEME 2200   DIS 201

    • W Olin Hall 245
    • Jan 23 - May 9, 2023
    • Duncan, T

  • Instruction Mode: In Person