Hartwick college

107 Physical Geology (4 credits, 3 one-hour lectures weekly plus one 1 two-hour lab weekly, one weekend day field trip) Origin, composition, and structure of Earth. Also covers the rock cycle, identification of common minerals and rocks, formation of igneous, sedimentary, and metamorphic rocks, determination of rock ages, plate tectonics, local geology, earth resources, and climate change. (LAB)

108 Historical Geology (4 credits, 3 one-hour lectures, 1 two-hour lab weekly) A history of Earth since its origin. Topics include the origin and development of the continents, the origin and evolution of life, the appearance of evolution of man, and major climate changes and their effects on man. (LAB)

109 The Global Environment (4 credits, 3 one-hour lectures, 1 two-hour lab weekly) This course focuses on the whole environment, from the center of the Earth’s core to the top of its atmosphere. We examine the scientific aspects of processes thought to be responsible for global change, with emphasis on interactions between the lithosphere, hydrosphere, atmosphere, and biosphere. Topics include the history of global change from the formation of the Earth to the present, the magnitude and rate of change, the processes of plate tectonics and the physical environment as driving mechanisms for change, global catastrophes as catalysts for change, and human intervention and how it affects the rate and magnitude of change. (LAB)

110 Environmental Geology (3 credits, 3 one-hour lectures) This course is a general survey of the role geology plays in the environmental sciences. A description of the major geologic hazards, earthquakes, volcanoes, landslides, erosion, etc. An introduction to hydrogeology from the point of view of water-use problems. A discussion of energy, mineral, and soil resources. Problems of air, soil, and water pollution.

202 Meteorology (4 credits, 3 one-hour lectures, 1 two-hour lab weekly) This course covers the structure and dynamics of the Earth’s atmosphere. Topics include the development and prediction of weather systems, thermodynamics of atmospheric stability, and dynamics of global climate change. Students will learn to use the Hartwick College weather station to collect and analyze atmospheric data and use these data along with forward atmospheric modeling programs (NCAR, NWS) to construct forecasts.

203 Planetology (3 credits, 3 one-hour classes weekly) This course covers the geology, chemistry, and physics of the sun, planets, meteorites, and moons of our solar system. The course focuses on the origin and evolution of the solar system and the geologic development of the planets and their moons. Hands-on lab activities (some of them outdoors) explore the size of the solar system, the role of plate tectonics and volcanism in the development of moons and planets, and the possibility of discovering life on other worlds. Offered during January Term.

205 Paleontology (4 credits, 2 two-hour classes weekly) Introduction to the morphology, paleontology, and evolution of fossil organisms with emphasis on the invertebrates. (LAB)

206 Mineralogy (4 credits, 3 one-hour lectures plus one 3 hour lab weekly, one weekend field trip). Physical properties, chemical properties, crystal structure, and geological occurrences of minerals. Introduction to optical properties of minerals and modern techniques of identifying and analyzing mineral chemistry, structure, and surface properties. Offered alternate years. Prerequisites: Introductory geology course and Chem 107 or permission of instructor.

275 Off-Campus Field Studies (4 credits, January Term) Field trips include study of the geology, geography, and natural history of destinations such as the Bahamas, Hawaii, Texas, and Switzerland. All aspects of Earth Science may be covered during these trips including surficial geology, geomorphology, sedimentology, petrology, mineralogy, structural geology, climatology, hydrology, and geochemistry. These trips offer exceptional opportunities to practice field techniques in all areas of geology. Prerequisite: Permission of instructor. Physical Geology (107) is strongly recommended.

288 Geomorphology (3 credits, 5 two-hour lectures weekly, January Term) A study of the classification and development of landforms. The landforms of various climatic belts will be discussed and compared. Particular attention will be paid to glacial geomorphology, including a general discussion of glacial and Pleistocene paleoclimatology.

302 Surficial Geology (4 credits, 2 two-hour classes weekly) This course focuses on the modern environmental science of the Earth’s surface. Many of the environmental problems faced by a technological society involve surface geological materials. The course addresses the needs of the geology student preparing for a career in the environmental sciences. The course emphasizes major elements of glacial geology and soils science. In addition, there is considerable discussion of geological engineering problems associated with erosion and unstable slopes.

305 Groundwater Hydrology (4 credits, 3 one-hour lectures weekly. One three-hour lab weekly) The course covers the geological and physical aspects of hydrology. Study of the hydrologic budget, hydraulics, and material properties of geologic materials are integrated to develop the concepts of groundwater formation and movement. Groundwater contaminant transport and treatment are introduced. Use of practical problem solving techniques with quantitative methods is stressed. Offered alternate years. Prerequisites: Math 233 or permission of instructor. (LAB)

307 Petrology (4 credits, 3 one-hour lectures, 1 three-hour lab weekly, weekend field trip) The origin, classification, and interpretation of igneous and metamorphic rocks. Emphasis on tectonic settings and processes by which various rock types form, and the study of origins and evolution of rock suites through observation, chemical analysis, basic thermodynamics, and phase diagrams. Laboratory emphasizes thin section and hand sample petrography. Offered alternate years. Prerequisites: Geol 206, Chem 108 or 109. Math 121 recommended. (LAB)

308 Structural Geology (4 credits, 3 one-hour lectures, 1 three-hour lab weekly, 1 three day field trip) Covers the dynamics and deformation of the Earth with emphasis on Tectonic processes responsible for mountain building. Students learn techniques used to study and interpret deformed rocks both in the field and in the laboratory. Prerequisite: Geol. 107, Math 121 (LAB).

309 Stratigraphy and Sedimentation (W) (4 credits, 3 one-hour lectures, 1 four-hour field trip each week) Study of sedimentary rocks and their use in correlation and analysis of sedimentary processes. (LAB)

311 Field Geology (4 credits, 1 three-hour lecture, 1 four-hour lab weekly, 1 four-day field trip) Teaches the field techniques for collecting geologic data using Brunton compass, GPS, and surveying equipment. Covers an introduction to data handling using stereographic projections, rose diagrams, and GIS software. Most lectures and labs will be held outdoors. A complete geologic map and written report are required. (LAB)

316 Geochemistry (4 credits, 3 one-hour lectures weekly. 1 three-hour lab weekly) This course samples many aspects of geochemistry including biogeochemical cycles, aqueous geochemistry, carbonate systems (such as surface waters and caves), oxidation-reduction equilibria (such as acid mine drainage), weathering, and isotope geochemistry. Emphasis will be placed on the application of thermodynamic principles. Offered alternate years. Prerequisites: Math 121, Chem 107, 108, or Chem 109, or permission of instructor. Geol 107 and Math 233 recommended.

450 Topics in Geology (3 credits) Seminars or tutorials in geological topics selected according to the interests and needs of students.

490 Senior Project (3 credits) Required project arranged individually for all majors.