Geology - Chemistry
Geochemistry involves two different emphases. Low-temperature geochemistry involves study of chemical and biochemical processes on and near Earth’s surface, including land, oceans and freshwater bodies, and how the geochemical record reflects climate conditions. High-temperature geochemistry includes study of formation and evolution of the Earth and other planets, magma formation and properties, volcanic activity, and metamorphism. The AB degree requires a total of 14 courses, including 5 geoscience courses and 4 chemistry courses, and a few supporting math and physics courses. The ScB degree requires a total of 20 courses, including 7 geoscience courses and 4 chemistry courses, either with an organic or an inorganic focus, plus some supporting math and physics courses and one research course. Geoscience courses emphasize a process-oriented approach, with hands-on experiences in labs and on field trips. There is a strong emphasis on active and collaborative learning, and on practice in communication. There are many opportunities for students to do research work for pay during the academic year or in the summer, in areas such as experimental studies of magma formation, and analyzing lunar rock samples for water content.
Here's what concentrators from the classes of 2012, 2013, 2014, 2015, and 2016, reported they were doing in their first year after graduation.
- University of Buffalo-SUNY, MS, Geochemistry
- Research Assistant, Lawrence Livermore National Laboratory
- Research Associate, Gilead Sciences
- The University of Texas at Austin, PhD, Paleoclimate/Paleoceanography
- Account Executive, Steel City Executives
- Research Assistant, Abt Associates
- Washington University in St. Louis, PhD, Earth and Planetary Science
- Research Assistant, Begs Laboratory, Boston Children's Hospital
- Staff Scientist, Langan Engineering & Environmental Services
- Research Assistant, Brown University
- Researcher, Malin Space Science Systems