Georgia Tech’s Earth and Atmospheric Sciences BS unites solid-Earth tectonics, climate physics, and planetary exploration under a data-first ethos. Field camps trek from Appalachian metamorphic cores to volcanic arcs in Costa Rica, capturing drone LiDAR and seismometer arrays for 3D subsurface reconstructions. On campus, students simulate mantle convection on HPC clusters and analyze NASA InSight Mars-quake catalogs. Policy electives link scientific insight to climate-resilience legislation, cultivating graduates ready to advise energy, aerospace, and environmental sectors alike.
Machine-learning inversion of gravity data to map groundwater aquifers
Petrological analysis of eclogite xenoliths to constrain mantle recycling
Satellite SAR study of glacier velocity changes in response to El Niño
Seismic hazard microzonation of Atlanta using ambient noise tomography
3D climate-model downscaling for urban heat-island mitigation planning
Mars regolith simulant testing for in-situ resource utilization bricks
CO₂ sequestration capacity assessment of regional basalt formations
Paleoclimate reconstruction from speleothem isotopic signatures
Real-time volcanic ash plume forecasting tool for aviation safety
IoT landslide early-warning network with low-power tilt sensors
Geologic carbon-capture public-policy impact analysis
High-resolution geologic map of Piedmont using UAV hyperspectral imaging
Spectral analysis of asteroid mineralogy for space-mining feasibility
Carbonate platform evolution modeling under sea-level rise scenarios
Citizen-science network for urban air-quality particulate monitoring
From core to clouds, unravel Earth’s secrets and protect its future.
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