Metropolitan State University

CHEM 351 : Physical Chemistry I

A. Course Description
Credits: 5
Prerequisites: CHEM 112 General Chemistry II AND
MATH 210 Calculus I AND
PHYS 212 Calculus Based Physics II


CHEM 112 General Chemistry II AND
MATH 208 Applied Calculus AND
MATH 211 Calculus II


MATH 211 Calculus II  
Lab Hours/ Weeks: Corequisites: None
Lecture Hours/ Week :  
MnTC Goals: None
This course introduces the concepts of thermodynamics. Topics include first law of thermodynamics, second law of thermodynamics, entropy, statistical mechanics, specific heat capacities of gases and solids, efficiency and the Carnot cycle, chemical potential, chemicals and phase equilibriums, etc. Applications explored will include the behavior of gases and the operation of heat engines. Laboratories emphasize real world applications of the concepts and problem solving skills taught in this course.
B. Course Effective Dates: 05/04/2017 - Present
C. Outline of Major Content Areas:
See Course Description for major content areas.
D. Learning Outcomes (General)
  1. Demonstrate mastery of the thermodynamics concepts and vocabulary at the level necessary for success in graduate level work in this field.
  2. Demonstrate quantitative reasoning skills and competency with arithmetic, algebra and statistics at a level appropriate for graduates of bachelors degree programs in the physical sciences.
  3. Demonstrate understanding of scientific theories and facts in thermodynamics at a level appropriate to upper division undergraduate study in chemistry and physics.
  4. Understand and apply concepts of energy, heat, pressure, work, heat capacities, enthalpy, thermal equilibrium, entropy, chemical potential and their molecular view.
  5. Understand and apply equipartition theorem.
  6. Understand and apply free energy and chemical potential.
  7. Understand and apply statistical mechanics.
  8. Understand and apply the first law, second law and third law of thermodynamics and their molecular origin.
  9. Understand and apply the laws of thermodynamics to heat engines and refrigerators.
  10. Understand and apply the microscopic model of thermodynamic systems including the ideal gas, paramagnets, etc.
  11. Use the above listed knowledge in quantitative problem-solving with differential and integral calculus.
E. Learning Outcomes (MN Transfer Curriculum)
This contains no goal areas.
G. Special Information
Note: First day attendance required except by instructor permission. Overlap: Student cannot receive credit for both CHEM 351 Physical Chemistry I and PHYS 351 Thermodynamics.