Thermodynamics and kinetics: will the contents of this flask react, and if so, how fast? Properties that govern the chemical and physical behavior of macroscopic collections of atoms and molecules (gases, liquids, solids and mixtures of the above). Prerequisite: CHM 224 or CHM 118, and MTH 112 or MTH 114.

This final course in the chemistry core sequence provides a foundation in the principles of physical and inorganic chemistry that are central to the study of all chemical phenomena. Topics include quantitative treatment of thermochemistry, chemical equilibria, electrochemistry and reaction kinetics. Prerequisite: CHM 111 or equivalent and MTH 111 or equivalent. Enrollment limited to 16 per lab section.

This final course in the chemistry core sequence provides a foundation in the principles of physical and inorganic chemistry that are central to the study of all chemical phenomena. Topics include quantitative treatment of thermochemistry, chemical equilibria, electrochemistry and reaction kinetics. Prerequisite: CHM 111 or equivalent and MTH 111 or equivalent. Enrollment limited to 16 per lab section.

This final course in the chemistry core sequence provides a foundation in the principles of physical and inorganic chemistry that are central to the study of all chemical phenomena. Topics include quantitative treatment of thermochemistry, chemical equilibria, electrochemistry and reaction kinetics. Prerequisite: CHM 111 or equivalent and MTH 111 or equivalent. Enrollment limited to 16 per lab section.

This final course in the chemistry core sequence provides a foundation in the principles of physical and inorganic chemistry that are central to the study of all chemical phenomena. Topics include quantitative treatment of thermochemistry, chemical equilibria, electrochemistry and reaction kinetics. Prerequisite: CHM 111 or equivalent and MTH 111 or equivalent. Enrollment limited to 16 per lab section.

An introduction to the theory and practice of organic chemistry. The course focuses on structure, nomenclature, physical and chemical properties of organic compounds and infrared and nuclear magnetic resonance spectroscopy for structural analysis. Reactions of carbonyl compounds and alkenes is studied in depth. Prerequisite: 111 or 118. Enrollment limited to 16 per lab section. Lecture and lab registration by wait-list only.

An introduction to the theory and practice of organic chemistry. The course focuses on structure, nomenclature, physical and chemical properties of organic compounds and infrared and nuclear magnetic resonance spectroscopy for structural analysis. Reactions of carbonyl compounds and alkenes is studied in depth. Prerequisite: 111 or 118. Enrollment limited to 16 per lab section. Lecture and lab registration by wait-list only.

An introduction to the theory and practice of organic chemistry. The course focuses on structure, nomenclature, physical and chemical properties of organic compounds and infrared and nuclear magnetic resonance spectroscopy for structural analysis. Reactions of carbonyl compounds and alkenes is studied in depth. Prerequisite: 111 or 118. Enrollment limited to 16 per lab section. Lecture and lab registration by wait-list only.

An introduction to the theory and practice of organic chemistry. The course focuses on structure, nomenclature, physical and chemical properties of organic compounds and infrared and nuclear magnetic resonance spectroscopy for structural analysis. Reactions of carbonyl compounds and alkenes is studied in depth. Prerequisite: 111 or 118. Enrollment limited to 16 per lab section. Lecture and lab registration by wait-list only.

An introduction to the theory and practice of organic chemistry. The course focuses on structure, nomenclature, physical and chemical properties of organic compounds and infrared and nuclear magnetic resonance spectroscopy for structural analysis. Reactions of carbonyl compounds and alkenes is studied in depth. Prerequisite: 111 or 118. Enrollment limited to 16 per lab section. Lecture and lab registration by wait-list only.