Geoscience BS
Major: Geoscience
Degree Awarded: Bachelor of Science (BS)
Calendar Type: Quarter
Minimum Required Credits: 182.5
Co-op Options: Three Co-op (Five years)
Classification of Instructional Programs (CIP) code: 40.0699
Standard Occupational Classification (SOC) code: 11-9121
About the Program
From energy to climate change to environmental degradation, many of the most pressing societal issues of the coming century will pertain to geoscience. The study of the Earth is central to maintaining clean drinking water, mitigating environmental contamination, providing ores and rare elements necessary for industry, and locating new sources of energy. Graduates of Drexel’s Bachelor of Science in Geoscience will be among the next generation of leading scientists tackling these critical issues. There are countless opportunities to step off campus and into the field.
The Biodiversity, Earth and Environmental Science (BEES) Department offers a major in geoscience designed to meet the needs of students wishing to pursue graduate school or immediate employment in the geosciences.
The core requirements encompass foundational courses in science, writing, and math, and traditional courses that form the backbone of the geosciences. Building upon these are innovative courses focused on Earth systems processes, key environmental issues, practical field experiences and advanced geological study.
In addition to nourishing and honing the passions of students studying the Earth, the core curriculum is designed to:
- Instill key technical skills early on as a pathway to high-quality co-op opportunities
- Lay the groundwork for our students to pursue advanced graduate study in the geosciences and other disciplines
- Enable our graduates to translate marketable skills and knowledge into high-quality jobs in industry and government
Geoscience majors will begin their field experiences during the first term of their freshmen year. Most courses include a laboratory section or a hands-on recitation section (“dry lab”), plus at least three field trips to relevant regional geological sites. These courses, combined with the co-op experience and summer geological field camp, provide students real-world experience in the field.
Additional Information
For more information about this program, visit the Biodiversity, Earth and Environmental Science (BEES) Department website.
Degree Requirements
| General Education Requirements | ||
| CIVC 101 | Introduction to Civic Engagement | 1.0 |
| COM 230 | Techniques of Speaking | 3.0 |
| COM 310 [WI] | Technical Communication | 3.0 |
| COOP 101 | Career Management and Professional Development * | 1.0 |
| ENGL 101 | Composition and Rhetoric I: Inquiry and Exploratory Research | 3.0 |
| or ENGL 111 | English Composition I | |
| ENGL 102 | Composition and Rhetoric II: Advanced Research and Evidence-Based Writing | 3.0 |
| or ENGL 112 | English Composition II | |
| ENGL 103 | Composition and Rhetoric III: Themes and Genres | 3.0 |
| or ENGL 113 | English Composition III | |
| PHIL 340 | Environmental Ethics | 3.0 |
| or PHIL 341 | Environmental Philosophy | |
| UNIV S101 | The Drexel Experience | 1.0 |
| UNIV S201 | Looking Forward: Academics and Careers | 1.0 |
| Humanities or Social Science electives | 6.0 | |
| Free electives | 24.0 | |
| Mathematics and Statistics | ||
| MATH 121 | Calculus I | 4.0 |
| MATH 122 | Calculus II | 4.0 |
| MATH 123 | Calculus III | 4.0 |
| MATH 410 | Scientific Data Analysis I | 3.0 |
| MATH 411 | Scientific Data Analysis II | 3.0 |
| Computer Science | ||
| CS 150 | Computer Science Principles | 3.0 |
| CS 171 | Computer Programming I | 3.0 |
| Physical Sciences | ||
| CHEM 101 | General Chemistry I | 3.5 |
| CHEM 102 | General Chemistry II | 4.5 |
| CHEM 103 | General Chemistry III | 4.5 |
| Complete one of the following Physics sequences: | 12.0 | |
| Fundamentals of Physics I and Fundamentals of Physics II and Fundamentals of Physics III | ||
| Introductory Physics I and Introductory Physics II and Introductory Physics III | ||
| Environmental Science | ||
| ENVS 101 | Introduction to Environmental Science | 5.0 |
| ENVS 102 | Natural History, Research and Collections | 2.0 |
| ENVS 441 [WI] | Issues in Global Change I: Seminar | 2.0 |
| ENVS 442 | Issues in Global Change II: Research | 2.0 |
| ENVS 443 | Issues in Global Change III: Synthesis | 2.0 |
| Geoscience Core Courses | ||
| GEO 101 | Physical Geology | 4.0 |
| GEO 102 | History of the Earth | 4.0 |
| GEO 103 | Introduction to Field Methods in Earth Science | 2.0 |
| GEO 201 [WI] | Earth Systems Processes | 3.0 |
| GEO 215 | Mineralogy | 4.0 |
| GEO 301 | Advanced Field Methods in Earth Science | 3.0 |
| GEO 309 | Geochemistry | 4.0 |
| GEO 312 | Sedimentology and Stratigraphy | 3.5 |
| GEO 320 | Invertebrate Paleobiology and Paleoecology | 3.5 |
| GEO 325 | Structural Geology | 5.0 |
| GEO 401 | Igneous and Metamorphic Petrology | 5.0 |
| GEO 375 | Field Camp | 6.0 |
| GEO Electives | ||
| Select 22.0 credits from the list below: | 22.0 | |
| Genetics and Evolution | ||
| Physiology and Ecology | ||
| Genetics and Evolution Lab | ||
| Anatomy and Ecology Lab | ||
| Form, Function & Evolution of Vertebrates | ||
| Vertebrate Biology and Evolution Laboratory | ||
| Vertebrate Morphology and Physiology | ||
| Vertebrate Morphology & Physiology Lab | ||
| Environmental Communication | ||
| Tree of Life | ||
| Evolution | ||
| Invertebrate Morphology and Physiology | ||
| Invertebrate Morphology and Physiology Lab | ||
| Global Climate Change | ||
| Environmental Chemistry Laboratory | ||
| GIS and Environmental Modeling | ||
| Introduction to Environmental Chemistry | ||
| Systematic Biology | ||
| Biogeography | ||
| Chemistry of the Environment | ||
| Atmospheric Chemistry | ||
| Coastal Biogeochemistry | ||
| Advanced Topics in Evolution | ||
| Introduction to Oceanography | ||
| Environmental Geology | ||
| Vertebrate Paleontology | ||
| Geomorphology | ||
| Coastal Geology | ||
| Oceanography | ||
| Volcanology | ||
| Geology of Groundwater | ||
| Geophysics | ||
| Plate Tectonics | ||
| Weather I: Climate and Global Change | ||
| Weather II: Analysis and Forecasting | ||
| Sociology of Disasters | ||
| Total Credits | 182.5 | |
- *
Co-op cycles may vary. Students are assigned a co-op cycle (fall/winter, spring/summer, summer-only) based on their co-op program (4-year, 5-year) and major.
COOP 101 registration is determined by the co-op cycle assigned and may be scheduled in a different term. Select students may be eligible to take COOP 001 in place of COOP 101.
Writing-Intensive Course Requirements
In order to graduate, all students must pass three writing-intensive courses after their freshman year. Two writing-intensive courses must be in a student's major. The third can be in any discipline. Students are advised to take one writing-intensive class each year, beginning with the sophomore year, and to avoid “clustering” these courses near the end of their matriculation. Transfer students need to meet with an academic advisor to review the number of writing-intensive courses required to graduate.
A "WI" next to a course in this catalog may indicate that this course can fulfill a writing-intensive requirement. For the most up-to-date list of writing-intensive courses being offered, students should check the Writing Intensive Course List at the University Writing Program. Students scheduling their courses can also conduct a search for courses with the attribute "WI" to bring up a list of all writing-intensive courses available that term.
Sample Plan of Study
The sample plan of study is a general guideline that can be used for each of the three concentrations depending on course selections in certain terms.
5 year, 3 co-op
| First Year | |||||||
|---|---|---|---|---|---|---|---|
| Fall | Credits | Winter | Credits | Spring | Credits | Summer | Credits |
| ENGL 101 or 111 | 3.0 | CHEM 101 | 3.5 | CHEM 102 | 4.5 | VACATION | |
| ENVS 101 | 5.0 | CIVC 101 | 1.0 | COOP 101 | 1.0 | ||
| GEO 101 | 4.0 | ENGL 102 or 112 | 3.0 | ENGL 103 or 113 | 3.0 | ||
| MATH 121 | 4.0 | GEO 102 | 4.0 | ENVS 102 | 2.0 | ||
| UNIV S101 | 1.0 | MATH 122 | 4.0 | GEO 103 | 2.0 | ||
| MATH 123 | 4.0 | ||||||
| 17 | 15.5 | 16.5 | 0 | ||||
| Second Year | |||||||
| Fall | Credits | Winter | Credits | Spring | Credits | Summer | Credits |
| CHEM 103 or 101 | 4.5 | COM 230 | 3.0 | COOP EXPERIENCE | COOP EXPERIENCE | ||
| CS 150 | 3.0 | CS 171 | 3.0 | ||||
| PHYS 101 or 152 | 4.0 | GEO 201 | 3.0 | ||||
| GEO or Free elective | 3.0 | PHYS 102 or 153 | 4.0 | ||||
| GEO or Free elective | 3.0 | ||||||
| 14.5 | 16 | 0 | 0 | ||||
| Third Year | |||||||
| Fall | Credits | Winter | Credits | Spring | Credits | Summer | Credits |
| GEO 312 | 3.5 | GEO 215 | 4.0 | COOP EXPERIENCE | COOP EXPERIENCE | ||
| MATH 410 | 3.0 | MATH 411 | 3.0 | GEO 375 | 3.0 | ||
| PHYS 201 or 154 | 4.0 | UNIV S201 | 1.0 | ||||
| PHIL 340 or 341 | 3.0 | GEO elective | 3.0 | ||||
| Free elective | 3.0 | ||||||
| 13.5 | 14 | 0 | 3 | ||||
| Fourth Year | |||||||
| Fall | Credits | Winter | Credits | Spring | Credits | Summer | Credits |
| COM 310 | 3.0 | GEO 309 | 4.0 | COOP EXPERIENCE | COOP EXPERIENCE | ||
| GEO 320 | 3.5 | GEO 325 | 5.0 | GEO 375 | 3.0 | ||
| GEO 401 | 5.0 | Humanities/Social Science elective | 3.0 | ||||
| Humanities/Social Science elective | 3.0 | Free elective | 3.0 | ||||
| 14.5 | 15 | 0 | 3 | ||||
| Fifth Year | |||||||
| Fall | Credits | Winter | Credits | Spring | Credits | ||
| ENVS 441 | 2.0 | ENVS 442 | 2.0 | ENVS 443 | 2.0 | ||
| GEO 301 | 3.0 | GEO electives | 4.0 | GEO electives | 6.0 | ||
| GEO electives | 6.0 | Free electives | 6.0 | Free electives | 6.0 | ||
| Free Elective | 3.0 | ||||||
| 14 | 12 | 14 | |||||
| Total Credits 182.5 | |||||||
Co-Op/Career Opportunities
Co-Op Opportunities
There are over one hundred environmental, geophysical, and geotechnical firms within the greater Philadelphia region. Additionally, there are opportunities with federal, state, and municipal agencies, jobs in central Pennsylvania related to the Marcellus Shale, and research opportunities between Drexel and the Academy of Natural Sciences.
All geoscience majors follow the five-year, three co-op plan of study program. Transfer students may be granted an exception for a two co-op plan of study so that they may remain on schedule. The summer geological field camp will occur during the third co-op cycle. In this third co-op, geoscience students attend field camp and also partake in an abbreviated co-op work experience.
Career Opportunities
According to the US Bureau of Labor Statistics (BLS), employment for geoscientists through 2020 is expected to grow faster than the average for all occupations. In addition, the geosciences are expected to outpace life, physical, and social sciences in job creation. The employment outlook for geoscientists in Drexel's surrounding area is particularly bright, with a robust environmental consulting industry and exploding demand related to Marcellus Shale drilling.
The geoscience major, with its three concentrations, prepares students who are interested in entering the workforce immediately as well as those who are interested in pursuing related research in graduate schools.
Facilities and Field Sites
Facilities
The Geoscience major leverages resources at Drexel University and the Academy of Natural Sciences such as a mineral collection with 9,000 specimens, over a million fossil specimens, Dinosaur Hall, The Patrick Center for Environmental Research, a state-of-the-art fossil preparation lab, notable research programs, and faculty with expertise in geology, paleontology, and related disciplines.
Summer Geological Field Camp
Summer geological field camp is the quintessential undergraduate experience for geosciences students. It is a long-held tradition in geology departments that students head out West, during the summer before graduation, to apply their knowledge to real-world situations and to acquire field skills that will serve them throughout their careers. This is particularly important for students in eastern schools where the mountains are small and outcrops are scarce. Field camp also provides networking and bonding opportunities for students. Friends made at field camp often become colleagues for life. At the Geological Society of America meeting, reunions are organized by the university and by field camp.
The summer geological field camp for Geoscience students will occur during the third co-op cycle.
Barnegat Bay Coastal Field Station
The BEES field station on Barnegat Bay in Waretown, NJ provides Geoscience students with opportunities to engage in hands-on research in coastal geology, barrier island morphology, oceanography, and sedimentology. The facility includes a lodge, two classrooms/meeting rooms, dining hall, dormitories, and rustic cabins. The field station is located on 194 acres of diverse coastal habitat, including a maritime forest, tidal creek, salt marsh, fresh water pond, brackish impoundment, and bayshore environments. The department’s research vessel gives students access to back-bay and near-shore marine environments.
The department holds its introductory field session for incoming freshmen and other events at the field station. The facility may also serve as a base for excursions into the Pine Barrens, a heavily forested area containing a number of interesting deposits related to the last glacial period.
Red Hill Fossil Site
The Red Hill fossil site in Tioga County, PA, exposes Devonian coastal sedimentary rocks that preserve a rich fossil fauna. Of particular importance is a fossil fish species, studied by Dr. Ted Daeschler, representing a critical transition between fish and tetrapods (land animals). This site offers opportunities for studying vertebrate paleontology, stratigraphy, and sedimentology and provides students with a window into an important moment in the history of life on Earth.
Inversand Fossil Site: Local Training Ground for Geoscience Majors
The Inversand fossil site is a unique resource for geological education, research, and STEM outreach. The quarry is located in Gloucester Country, NJ, only 20 minutes from Drexel’s campus, making it possible to conduct field exercises there within a three-hour class period. The geological formations that outcrop in the Inversand Quarry have yielded many new fossil species. The site has significance beyond vertebrate paleontology however, and will provide a local laboratory for classes in geochemistry, geophysics, stratigraphy, sedimentology, hydrogeology, and environmental geology. As such, it will provide a valuable training ground only a short distance from campus for all Drexel Geoscience majors.
