Declaring this the “decisive decade” for climate action, Cornell launched The 2030 Project: A Climate Initiative, which will mobilize world-class faculty to develop and accelerate tangible solutions to the climate challenge.
Declaring this the "decisive decade" for climate action, Cornell launched The 2030 Project: A Climate Initiative, which will mobilize world-class faculty to develop and accelerate tangible solutions to the climate challenge.
Declaring this the “decisive decade” for climate action, Cornell launched The 2030 Project: A Climate Initiative, which will mobilize world-class faculty to develop and accelerate tangible solutions to the climate challenge. From transforming food an
Cornell researchers and a startup have received more than $7 million in federal grants to advance novel clean energy research that includes wirelessly charging electric vehicles, low-carbon jet fuel and construction materials made from waste.
Grace Barcheck/Cornell University
Matthew Siegfried, forefront, and seismologist Marino Protti, of the Observatorio Vulcanológico y Sismológico de Costa Rica, prepare to move equipment at Whillans Ice Plain. The Transantarctic Mountains are in the background. Slow motion precursors give earthquakes the fast slip
February 16, 2021
At a glacier near the South Pole, earth scientists have found evidence of a quiet, slow-motion fault slip that triggers strong, fast-slip earthquakes many miles away, according to Cornell research published Feb. 5 in Science Advances.
During an earthquake, a fast slip happens when energy builds up underground and is released quickly along a fault. Blocks of earth rapidly slide against one another.