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71 - 80 of 134 results for: all courses

EPS 40N: Diamonds

(Formerly GEOLSCI 40N) Preference to freshmen. Topics include the history of diamonds as gemstones, prospecting and mining, and their often tragic politics. How diamond samples provide clues for geologists to understand the Earth's deep interior and the origins of the solar system. Diamond's unique materials properties and efforts in synthesizing diamonds. Change of Department Name: Earth and Planetary Science (Formerly Geologic Sciences).
| UG Reqs: GER: DB-NatSci, WAY-SMA

EPS 106: Sediments: The Book of Earth's History

(Formerly GEOLSCI 106) Topics: weathering, erosion and transportation, deposition, origins of sedimentary structures and textures, sediment composition, diagenesis, sedimentary facies, tectonics and sedimentation, and the characteristics of the major siliciclastic and carbonate depositional environments. Required Lab Section: methods of analysis of sediments in hand specimen and thin section. There is a required field problem trips to the field site(s) during the quarter, data collection and analysis, and preparation of a final written and oral report. Prerequisites: 1, 102, 103. Change of Department Name: Earth and Planetary Science (Formerly Geologic Sciences).
| UG Reqs: GER: DB-NatSci, WAY-SMA

EPS 110: Our Dynamic West: Practical methods in geological sciences an intro to how the Earth deforms (EPS 294)

(Formerly GEOLSCI 110 and 294) Theory, principles, and practical techniques to measure, describe, analyze, and interpret deformation-related structures on Earth. Collection of fault and fold data in the field followed by lab and computer analysis; interpretation of geologic maps and methods of cross-section construction; structural analysis of fault zones and metamorphic rocks; measuring deformation; regional structural styles and associated landforms related to plate tectonic convergence, rifting and strike-slip faulting; the evolution of mountain belts and formation of sedimentary basins. Prerequisite: EPS 1 (Formerly GEOLSCI 1), calculus. Recommended: 102, 105. Change of Department Name: Earth and Planetary Science (Formerly Geologic Sciences).
| UG Reqs: GER: DB-NatSci, WAY-SMA

ESS 16N: Island Ecology

Preference to freshmen. How ecologists think about the world. Focus is on the Hawaiian Islands: origin, geology, climate, evolution and ecology of flora and fauna, and ecosystems. The reasons for the concentration of threatened and endangered species in Hawaii, the scientific basis for their protection and recovery. How knowledge of island ecosystems can contribute to ecology and conservation biology on continents.
Terms: Aut | Units: 3 | UG Reqs: GER: DB-NatSci
Instructors: Vitousek, P. (PI)

ESS 38N: The Worst Journey in the World: The Science, Literature, and History of Polar Exploration (EARTHSYS 38N, EPS 38N)

(Formerly GEOLSCI 38N) This course examines the motivations and experiences of polar explorers under the harshest conditions on Earth, as well as the chronicles of their explorations and hardships, dating to the 1500s for the Arctic and the 1700s for the Antarctic. Materials include The Worst Journey in the World by Aspley Cherry-Garrard who in 1911 participated in a midwinter Antarctic sledging trip to recover emperor penguin eggs. Optional field trip into the high Sierra in March. Change of Department Name: Earth and Planetary Science (Formerly Geologic Sciences).
Terms: Aut | Units: 3 | UG Reqs: GER: DB-NatSci

ESS 111: Biology and Global Change (BIO 117, EARTHSYS 111, EARTHSYS 217)

The biological causes and consequences of anthropogenic and natural changes in the atmosphere, oceans, and terrestrial and freshwater ecosystems. Topics: glacial cycles and marine circulation, greenhouse gases and climate change, tropical deforestation and species extinctions, and human population growth and resource use. Prerequisite: Biology or Human Biology core or BIO 81 or graduate standing.
Terms: Win | Units: 4 | UG Reqs: GER: DB-NatSci, WAY-SMA

ESS 141: Remote Sensing of the Oceans (EARTHSYS 141, EARTHSYS 241, ESS 241, GEOPHYS 141)

How to observe and interpret physical and biological changes in the oceans using satellite technologies. Topics: principles of satellite remote sensing, classes of satellite remote sensors, converting radiometric data into biological and physical quantities, sensor calibration and validation, interpreting large-scale oceanographic features.
Terms: Win | Units: 3-4 | UG Reqs: GER: DB-NatSci, WAY-AQR
Instructors: Arrigo, K. (PI)

ESS 148: Introduction to Physical Oceanography (CEE 162D, CEE 262D, EARTHSYS 164)

An introduction to what causes the motions in the oceans. Topics include: the physical environment of the ocean; properties of sea water; atmosphere-ocean interactions; conservation of heat, salt, mass, and momentum, geostrophic flows, wind-driven circulation patterns; the Gulf Stream; equatorial dynamics and El Nino; and tides. By the end of the course, students will have physical intuition for why ocean currents look the way they do and a basic mathematical framework for quantifying the motions. Prerequisite: PHYSICS 41
Terms: Aut | Units: 3 | UG Reqs: GER: DB-NatSci

ESS 155: Science of Soils (EARTHSYS 155)

Physical, chemical, and biological processes within soil systems. Emphasis is on factors governing nutrient availability, plant growth and production, land-resource management, and pollution within soils. How to classify soils and assess nutrient cycling and contaminant fate. Recommended: introductory chemistry and biology.
Terms: Spr | Units: 4-5 | UG Reqs: GER: DB-NatSci, WAY-SMA
Instructors: Fendorf, S. (PI)

ESS 164: Fundamentals of Geographic Information Science (GIS) (EARTHSYS 144)

Everything is somewhere, and that somewhere matters." The rapid growth and maturity of spatial data technologies over the past decade represent a paradigm shift in the applied use of location data from high-level overviews of administrative interests, to highly personalized location-based services that place the individual at the center of the map, at all times. The use of spatial data and related technology continues to grow in fields ranging from environmental sciences to epidemiology to market prediction. This course will present an overview of current approaches to the use of spatial data and its creation, capture, management, analysis and presentation, in a research context. Topics will include modeling of geographic objects and associated data, modeling of geographic space and the conceptual foundations of "spatial thinking," field data collection, basic spatial statistical analysis, remote sensing & the use of satellite-based imagery, "Big Data" and machine learning approaches t more »
Everything is somewhere, and that somewhere matters." The rapid growth and maturity of spatial data technologies over the past decade represent a paradigm shift in the applied use of location data from high-level overviews of administrative interests, to highly personalized location-based services that place the individual at the center of the map, at all times. The use of spatial data and related technology continues to grow in fields ranging from environmental sciences to epidemiology to market prediction. This course will present an overview of current approaches to the use of spatial data and its creation, capture, management, analysis and presentation, in a research context. Topics will include modeling of geographic objects and associated data, modeling of geographic space and the conceptual foundations of "spatial thinking," field data collection, basic spatial statistical analysis, remote sensing & the use of satellite-based imagery, "Big Data" and machine learning approaches to spatial data, and cartographic design and presentation including the use of web-based "Storymap" platforms. The course will consist of weekly lectures, guest speakers, computer lab assignments, midterm and final exams, as well as an individual final project requirement. This course must be taken for a minimum of 3 units and a letter grade to be eligible for Ways credit.
Terms: Aut | Units: 3-4 | UG Reqs: GER: DB-NatSci, WAY-AQR
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