The fields of geology and geophysics play a critical role in securing resources for a low-emissions economy. They are equally relevant in assessing the severity and longevity of modern society's impacts on surface environment, involving complex economic, environmental and societal issues. The unit introduces methods involved in imaging and monitoring the Earth, including gravity, magnetic and seismic methods, applied on land, at sea, and from the air, and covers how these can be used, in combination with geological observations and modern data science methods, to explore for critical metals and to monitor surface environments. These approaches can also be used for mapping the deep structure of sedimentary basins and continental margins, important for understanding groundwater dynamics, carbon sequestration and some natural hazards, including earthquakes and tsunamis. Using the geology of Australia as a natural laboratory, this unit of study presents projects ranging from learning how to create digital ore deposit prospectivity maps to projects tackling environmental issues. Organized in multi-disciplinary teams, students will combine geological and geophysical data with machine learning approaches to explore the information content in the data and understand how this approach can be used to solve practical problems.
Unit details and rules
| Unit code | GEOL3888 |
|---|---|
| Academic unit | Geosciences Academic Operations |
| Credit points | 6 |
|
Prohibitions
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GEOS3102 or GEOS3802 or GEOS3003 or GEOS3004 or GEOS3904 or GEOS3006 or GEOS3906 or GEOS3017 or GEOS3917 or GEOS3903 |
| Prerequisites
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GEOS2X14 and GEOS2X24 |
| Corequisites
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None |
| Assumed knowledge
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None |
| Available to study abroad and exchange students | Yes |
Teaching staff
| Coordinator | Dietmar Muller, dietmar.muller@sydney.edu.au |
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