Dec 03, 2024  
2023-2024 Cal State East Bay Catalog 
    
2023-2024 Cal State East Bay Catalog [ARCHIVED CATALOG]


Geology, B.A.: Geoscience Education Concentration



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Geology, B.A. Program (120 units)


Program Description

Geology is the study of the earth and of life and the natural processes occurring on the planet through time. Students learn about the causes of processes such as earthquakes, volcanoes, the formation of mountains, the effect of erosion and deposition, and the formation of rocks and minerals and their uses. Coursework combined with observations on field trips provide Cal State East Bay students with an understanding of natural processes and the human impact on the environment.

The Geology, B.A. program offers the student a greater degree of flexibility and may be more appropriate for those who do not plan to become certified professional geologists or pursue graduate study. (Note: Transfer from the Geology, B.A. to the Geology, B.S. program or vice versa can be accomplished.) Students wishing to do independent geological work professionally or plan on graduate study should enroll in the B.S. program; see Geology, B.S.  in the Department of Earth and Environmental Sciences.

The Department of Earth and Environmental Sciences offers undergraduate study leading to the Bachelor of Science and Bachelor of Arts degrees in Geology, focusing on developing strong foundational knowledge and a broad set of field and laboratory skills in the Earth sciences.

The B.A. program is designed to prepare students for:
  • Entry-level employment as geologists and environmental scientists in government (city, county, regional, state, and federal) and private consulting firms (environmental, engineering, and geotechnical firms, mining and oil companies, etc.).
  • K-12 Earth Science Education.

The undergraduate Geology programs emphasize field and laboratory training. Many opportunities for field and laboratory research exist throughout northern California and elsewhere. Our B.S. and B.A. program reflects departmental expertise by focusing on near-surface processes, hazards and resources, and concentrates on issues of regional and local importance to our community. Rigorous coursework is augmented by embedded and sequential field experiences that integrate classroom concepts in natural laboratories. Seminars and topical courses address diverse subjects, for example: geochemical evolution of groundwater, natural tracers of geologic processes, tectonic geomorphology, earthquake hazards, bay area tectonics, near-surface geophysics, and modern depositional environments. We maintain strong connections with East Bay Regional Parks, the California Environmental Protection Agency, Lawrence Livermore National Laboratory, NASA Ames, the U.S. Geological Survey in Menlo Park, and SLAC National Accelerator Laboratory. 

The Earth & Environmental Science Club, a student-run organization, sponsors a variety of activities including guest speakers, field trips, employment workshops, and student-faculty gatherings. The club is an important part of department life, providing students with opportunities to make professional contacts, to explore graduate school and professional options, and to enjoy the company of others with similar interests.

Program Learning Outcomes

Students graduating with a BS/BA in Geology will be able to:

1. Develop foundational knowledge in geologic materials, processes & time

  • Identify and classify geologic materials and know their material and/or biological properties or characteristics.
  • Recognize and understand the fundamental geological processes, distribution of natural resources, the magnitude and importance of geologic time, and its role in geologic processes and evolution.
  • Understand and apply basic principles of chemistry and physics to geologic issues.
  • Understand the fundamental principles and subjects that form the core topics of Earth Science.

2. Develop fundamental geological field and laboratory skills and computer competence

  • Identify and classify, in the field, basic geologic materials, including minerals, rocks, fossils, structures, and landforms.
  • Collect, describe and organize samples of geologic materials in support of field investigations.
  • Create basic types of geologic maps with standard geology symbols, using standard field measurement techniques and equipment.
  • Perform basic types of geologic analysis, such as lithostratigraphic and biostratigraphic correlation, map construction, geophysical and hydrogeological studies, and cross-section construction.
  • Visualize and comprehend geological materials or structures in 3D based on 1D and 2D data sets.
  • Demonstrate competence in basic computer tools and software, and Internet utilization, and utilize appropriate software for geological analysis.

3. Integrate and analyze geologic information through synthesis & critical thinking

  • Interpret geological terrains (local & regional) by synthesis of literature, field and laboratory studies, to create maps, sections and reports that accurately and effectively illustrate the surficial distribution and 3D geometry of geologic materials and structures (rock, faults, geo-fluids, hazardous waste, etc.).
  • Access, critically read and critique research literature and geologic datasets (2D and 3D) using discipline-specific methods, techniques and equipment.
  • Analyze, interpret, and integrate diverse datasets to address and solve geological and scientific problems.

4. Develop oral and written communication, and collaborative skills

  • Critically analyze geological and environmental issues by evaluation of scientific literature, and then present their positions clearly and persuasively in written form through words, graphs, and tables, using appropriate formats.
  • Effectively communicate orally using prepared presentations.
  • Understand the importance of hearing, considering and integrating competing and/or contrary points of view to the scientific process.
  • Understand the complex issues and relationships that exist between local community and global needs for earth materials (fossil fuels, mineral reserves, water, etc.) and the effects of climate change on vulnerable populations
  • Work responsibly as a member of a team, demonstrate professional levels of conduct, and communicate effectively with team members through personal and electronic means.

5. Understand the impact of the Earth Sciences on local-to-global sustainability and their role as an ethical scientist

  • Understand Earth’s place in the Universe, global-scale processes such as climate change, plate tectonics, earth systems interactions and rates, and the forcing factors/feedbacks that control them.
  • Have the breadth of education necessary to understand the importance of the Earth Sciences and technology in a global and societal context, and understand the effect of resource consumption on, and the importance of local-to-global-scale sustainability efforts.
  • Have knowledge of contemporary issues, such as sustainable resource development and the prediction of geological hazards.
  • Carry out responsibilities in a professional and ethical manner.

Program Roadmaps

These program roadmaps represent recommended pathways through the program. Please see an advisor to create an education plan that is customized to meet your needs.

 

4-Year Freshmen Roadmaps

 

 

2-Year ADT Roadmaps

Career Opportunities

Engineering Geologist • Environmental Geologist • Geochemist • Geologist • Geophysicist • Hydrologist • K-12 Earth Science Education • Mineralogist • Oceanographer • Paleontologist • Park Ranger • Petrologist • Seismologist • Soils Engineer • Stratigrapher

Admission Requirements

There are four steps to the application process for most prospective students:

  1. Applicants must submit an online CSU application for admission at Cal State Apply.
  2. Applicants must submit all supplementary documents required such as transcripts and standardized test scores.
  3. Cal State East Bay will determine an applicant’s eligibility based on criteria discussed in this chapter.
  4. The University will notify the student of the decision.

Degree Requirements Unit-Outline

  • A baccalaureate of arts degree requires a total of 120 units:
    • The major requirements consists of 62 or 64 units
    • General Education (GE) & Graduation Requirements (GR) consists of 57 units;
    • Free Electives consists of 0-1 unit (actual number of free elective units may depend on GE/GR units).

Note: It may be possible to double-count units within the graduation requirements or that a course may satisfy both a graduation requirement and a major requirement. Students should contact their program and AACE advisors for information.

Geology (B.A.) Major Requirements (62-64 units)


Lower Division Core


The following 33 units of lower-division core coursework are required:

Geoscience Education Concentration


The BA degree with the optional Geoscience Education concentration for 11 units prepares pre-service teachers for the four content domains in K-12 Earth Science: Geology, Atmospheric Science, Ocean Sciences, and Planetary Science.  In addition, these courses cover the content knowledge required to pass the Science CSET exams for credentialing; these exams are required to qualify for the Foundational Level Added Authorization in  Science.

Other Undergraduate Degree Requirements


In addition to major requirements, every student must also complete the University’s baccalaureate requirements for graduation, which are described in the Undergrad Baccalaureate & Program Requirements  chapter of this catalog. 

Department Courses Listed by Course Type


Earth and Environmental Sciences Courses

Department of Earth and Environmental Sciences

Go to information for this department.

Courses

Environmental Science

Environmental Science: Graduate

Geology

Geology: Graduate

 

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