Cin-Ty Lee

This course introduces chemistry of the Solar System materials and geochemical cycles in Earth and rocky planets through whole planet scale cycles. Specific topics include rock-forming processes related to the chemical and physical differentiation of the solid Earth and terrestrial planets into their main reservoirs, e.g., continental crust, oceanic crust, mantle, and core. Beginning with the bulk composition of planetary bodies, and an overview of the chemical and petrologic properties of the rocks that make up each of these reservoirs, the basic principles of petrology and geochemistry will be presented in the context of the rock cycle, plate tectonics, as well as the origin of economically and societally important ore deposits. Some basic concepts as to how the whole planet scale processes influence the chemistry of surface environment of Earth will be also be introduced. A laboratory and field trip, where students will see petrologic and geochemical principles applied, will be required. Recommended Prerequisite(s): MATH 101 and MATH 102, PHYS 101 or 111, and CHEM 121 or CHEM 151

Applications of continuum physics to the deformation, flexure, heat transfer, and gravity field of the lithosphere. Cross-list: EEPS 662. Recommended Prerequisite(s): MATH 212. Mutually Exclusive: Cannot register for EEPS 462 if student has credit for EEPS 662.

Advanced activities adapted to the needs of the individual undergraduate student research. Repeatable for Credit.

Advanced work in Earth science adapted to the needs of individual graduate students. Repeatable for Credit.

Applications of continuum physics to the deformation, flexure, heat transfer, and gravity field of the lithosphere. Cross-list: EEPS 462. Mutually Exclusive: Cannot register for EEPS 662 if student has credit for EEPS 462.

Thesis research. Recommended Prerequisite(s): Students must pass the preliminary exam before taking this course. Repeatable for Credit.