2012 – 2013
Office of Admissions
Emil H. Messikomer Hall
100 W. Rosedale Avenue
West Chester, PA 19383
Revised May 2012
207 Merion Science Center
LeeAnn Srogi, Chairperson
PROFESSORS: Busch, Gagné, Good, Lutz, Srogi
ASSOCIATE PROFESSORS: Fisher, Helmke, Hilliker, Smith, Vanlandingham
ASSISTANT PROFESSORS: Bosbyshell, Hall, Nikitina
The Department of Geology and Astronomy prepares students for careers in geoscience and geoscience education. Geoscience is an integrated study of the Earth, its geologic history, composition and structure, resources, natural hazards, atmosphere and oceans, and its environment in space. Geoscientists study such phenomena as earthquakes, landslides, floods, volcanoes, coastal erosion, and how these natural hazards impact humans. Geoscientists explore for mineral, energy, and water supplies. Geoscientists also attempt to make predictions about Earth’s future based on the past. Since most human activities are related to interaction with the physical components of Earth, geoscience plays a unique and essential role in today’s rapidly changing world. The Department of Geology and Astronomy offers two bachelor of science degree programs and a certification program in general science. The department also offers minors in astronomy, geology, earth science, and science education. All programs emphasize analytical skills and build on course work in mathematics, chemistry, physics, and statistics. Written and oral communication is emphasized in a majority of the course work.
All students must consult with their adviser regularly to ensure timely completion of the degree. Those in the B.S. in education program will have a second adviser in the College of Education to help students meet the secondary education requirements.
(120 semester hours)
(125 semester hours)
All students seeking a B.S.Ed. must formally apply for admission to teacher education. (See the "Teaching Certification Programs" section of this catalog for an explanation of related requirements.) Only those students formally admitted to teacher education will be eligible to enroll in SCE/SCB 350. Once admitted to teacher education, students must maintain the minimum GPA specified by the College of Education in order to continue taking advanced professional course work. If a student falls below the minimum GPA, he or she will be permitted to retake - in accordance with University policy - professional course work that contributed to the fall below the minimum GPA but will not be permitted to take additional work until the minimum is met.
Students may choose to minor in any of the following programs. Courses are selected with the approval of the department chairperson.
Students seeking certification in general science must either be enrolled in a B.S.Ed. program or hold a teaching certificate.
101 Introduction to Geology (3) The earth's composition and history; the processes that occur on and within the earth. Two hours of lecture and two hours of lab.
102 Humans and the Environment (3) A study of the ability of humans to survive and maintain their life quality, considering the limited resources and recycling capacity of planet Earth. Note: Students completing ESS 102 may not take BIO 102 or ENV 102 for credit.
Approved interdisciplinary course
111 General Astronomy (3) A descriptive course, including the composition and evolution of solar and stellar systems. Two hours of lecture and two hours of lab.
125 Volcanoes (3) Where do volcanoes occur and why? What happens when volcanoes erupt, and what controls eruptions? What roles have volcanoes played in human history and human culture? How do geologists study volcanoes in order to forecast eruptions and reduce the risks for human populations? This course explores these questions using print, multimedia, and Internet sources. Students will learn how to interpret geological information in order to assess volcanic hazards and forecast volcanic eruptions.
130 Our Coastal Oceans (3) This course examines the physical and biological processes at work in the coastal oceans. The content will be discussed in the framework of regional examples.
170 Introduction to Our Atmosphere (3) Why is the sky blue? What will the weather be tomorrow? What makes tornadoes? How did the ozone hole develop? What is the greenhouse effect? This class will use these questions and others to investigate the basic physical processes that determine the weather and climate on earth. A student who has successfully completed ESS 370 may not subsequently receive credit for ESS 170.
201 Field Geology (3) An introduction to the basic methods of geologic data collection, analysis, and presentation; literature research; and report writing. One weekend field trip is required. PREREQ: ESS 101. Writing emphasis course.
204 Historical Geology (3) The geologic history of Earth inferred by analyzing and evaluating the geologic record of its physical and biological changes on local, regional, and global scales. Laboratory included. PREREQ: ESS 101. Writing emphasis course.
301 Environmental Geochemistry (3) An introduction to principles and applications of geochemistry to geologic systems, including surface and ground waters, soils, and rocks. PREREQ: CHE 103, ESS 101.
302 Mineralogy (3) In-depth survey of the formation, identification, classification, and uses of minerals. Principles of symmetry, crystallography, crystal chemistry, and optical mineralogy. Laboratory and field examination and analysis of minerals. PREREQ: ESS 101, 204, and CHE 103 or equivalent.
307 Geology of the Solar System (3) The geology, origin, evolution, and properties of planets, comets, asteroids, moons, and meteorites.
321 Geometrics (3) Application of computational and statistical methods to geologic problems. Geologic sampling, data comparisons in environmental, petrologic, paleontologic, and geochemical problems.
323 General Geologic Field Studies of Southeastern Pennsylvania (3) Occurrence, relationships, and geologic history of the rocks, minerals, and soils of this area, studied at representative locations. PREREQ: ESS 302.
ESS 327 Electron Microscopy I (3) A one-semester lecture/laboratory course in theory operation and applications of electron beam technology in scientific research. Students receive hands-on training and complete a brief research project of their choosing. PREREQ: Six credits of college-level science, or permission from the instructor.
330 Introduction to Oceanography (3) A survey of our present knowledge of the waters and floors of the ocean. PREREQ: ESS 101.
331 Introduction to Paleontology (3) Identification and study of common fossils in order to understand their life processes and geologic significance. PREREQ: One course in geology. Writing emphasis course.
332 Advanced Oceanography (3) An advanced course in oceanography covering marine resources, oceanographic literature, animal-sediment relationships, field techniques, estuaries, salt marshes, sea level changes, and pollution. PREREQ: ESS 330.
336 Environmental Geology (3) The application of geological information to human problems encountered in natural phenomena, such as flooding, earthquakes, coastal hazards, and man-made concerns, including waste disposal, land use, and global change. PREREQ: ESS 101 or permission of instructor.
343 Geomorphology (3) Constructional and degradational forces that have shaped present landforms and are constantly reshaping and modifying landforms. Interpretation of geologic and topographic maps; field studies. PREREQ: ESS 101 and 204.
347 Earth and Space Science Seminar (1) Weekly seminar featuring guest lectures by geoscience professionals, prominent scientists, faculty, and students. Students will read professional literature, attend and participate in the lecture, and write a summary and/or analysis of each seminar. PREREQ: Six credits of ESS or permission of department.
348 International Geology Field Studies (3) Field investigations of selected countries’ physical environments focusing on geology and natural resources in relationship to cultural traditions, lifestyle, and sustainability. Case studies of human adaptation to local and global environmental challenges will be considered. Two hours of lecture and two hours of lab. PREREQ: ESS 101 or ESS 102 or permission of instructor.
355 Intermediate Astronomy (3) An analytical and qualitative analysis of selected astronomical phenomena. Topics include telescope optics (including photographic and photoelectric attachments), lunar and planetary orbits, stellar motions and magnitudes, galactic classifications, and distances. Two hours of lecture and two hours of lab. PREREQ: ESS 111.
362 History of Astronomy (3) Development of astronomical theories from the ancient Greeks until the 20th century. PREREQ: ESS 111.
370 Introduction to Meteorology (3) A study of the principles governing the earth's atmosphere and how these principles determine weather conditions. PREREQ: Six hours of science and MAT 105 or higher.
371 Advanced Meteorology (3) A continuation of the study of the principles governing the earth's atmosphere and how these principles determine weather conditions. PREREQ: ESS 370.
405 Igneous and Metamorphic Petrology (3) Theories of the formation of igneous and metamorphic rocks based on field occurrence, physical properties, geochemistry, thermodynamics, and petrography. Classification and identification of rocks. Laboratory and field examination and analysis of rocks. PREREQ: ESS 201 and 302.
420 Structural Geology (3) Determination of the sequential development and the forces involved in the various structural features of the earth. PREREQ: ESS 201 and 302.
439 Hydrogeology (3) This applied course covers groundwater flow, well hydraulics, water resources, contaminant transport, and groundwater remediation. Familiarity with calculus is recommended. PREREQ: ESS 301.
442 Geophysics (3) Gravitational, magnetic, seismic (refraction and reflection), and electrical properties of rocks and minerals in the earth. Physical principles of the earth; geophysics in relation to economic deposits. PREREQ: MAT 162 and PHY 140 or 180.
447 Earth and Space Science Seminar (1) Weekly seminar featuring guest lectures by geoscience professionals, prominent scientists, faculty, and students. Students will read professional literature, attend and participate in the lecture, and write a summary and/or analysis of each seminar. PREREQ: ESS 347 or department permission.
450 Sedimentation and Stratigraphy (3) Class, laboratory, and field studies of sediments, sedimentary rocks, depositional processes and environments, and diagenesis. Description, mapping, and correlation of strata to infer temporal-spatial relationships, locate resources, and interpret Earth history. PREREQ: ESS 301, 302, 331, and 343.
460 Internship (1-18) Work with industry, or local, state, or federal government agencies under faculty supervision.
This course may be taken again for credit.
490 Fundamentals of Soil (3) Soil properties, classification, and genesis from geologic, agricultural, and engineering perspectives. Topics include pedology, soil physics, geotechnical engineering, erosion, septic systems, soil contamination, and remediation. PREREQ: ESS 101.
491 Independent Study (1-3)
This course may be taken again for credit.
SCB 210 The Origin of Life and the Universe (3) An interdisciplinary course that presents the theory and evidence of the first three minutes of the universe and formation of the stars, galaxies, planets, organic molecules, and the genetic basis of organic evolution. PREREQ: High school or college courses in at least two sciences.
Approved interdisciplinary course
SCE 310 Science for the Elementary Grades (3) A course to prepare the elementary teacher for teaching science. Selected units or problems that cut across various fields of science. Methods and processes of science and available resources. PREREQ: Completion of science and mathematics general education requirements and formal admission to teacher education. Must reach junior status by the end of the previous semester.
SCE 350 Science Education in the Secondary School (3) Philosophy, objectives, and methods of teaching science. Practical experience provided. PREREQ: Formal admission to teacher education.
Diverse communities course. Writing emphasis course.
SCI 101 The Carbon Cycle (3) An exploration of how the carbon cycle connects earth and life, thorugh photosynthesis, respiration, decay, rock formation and weathering, and plate tectonics. Humans have altered the carbon cycle by burning fossil fuels. Students investigate the carbon cycle on the WCU campus and consider the implications for global warming. For elementary education majors only. Team taught with the Department of Biology.