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"Synthetic" float data shown projected from one month to ten years.
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"Synthetic" float data shown projected from one month to ten years.
"Synthetic" float data shown projected from one month to ten years.
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449796
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Levang, Sam
Title
"Synthetic" float data shown projected from one month to ten years.
"Synthetic" float data shown projected from one month to ten years.
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Date
05/09/2008
File name
atl_traj.jpg
Notes
Caption from Oceanus magazine, Vol. 53, No. 2, pg. 33: Researchers use computer simulations of ocean circulation to predict how floats would move in ocean currents. Here, the model simulates the release of a group of floats near Cape Hatteras, with the three panels showing float locations after one month, one year, and ten years. The complexity of the oceans currents causes these floats to rapidly spread apart, and the details of this spreading are important for predicting the oceans response to climate change. Colors indicate the depth of the floats, with red trajectories near the surface and blue ones in deeper waters. Image Of the Day caption: Sam Levang, a graduate student in the MIT-WHOI Joint Program, uses models to simulate ocean circulation. Into his virtual ocean, he injects synthetic floats to see where ocean currents take the floats. Here, synthetic floats were released near Cape Hatteras (yellow star). These three panels show the trajectories and locations of the floats after one month, one year, and ten years. The complexity of the ocean's currents causes these floats to spread apart rapidly. The details of this spreading are important to predict the ocean's response to climate change. Colors indicate the depth of the floats, with red trajectories near the surface and blue ones in deeper waters. Caption from Oceanus online: "Synthetic" floats are used to generate trajectories in computer simulations of ocean circulation. Here, a group of floats are released near Cape Hatteras, with the three panels showing float locations after one month, one year, and ten years. The complexity of the ocean's currents causes these floats to rapidly spread apart, and the details of this spreading are important to predict the ocean's response to climate change. Colors indicate the depth of the floats, with red trajectories near the surface and blue ones in deeper waters.
Caption from Oceanus magazine, Vol. 53, No. 2, pg. 33:
Researchers use computer simulations of ocean circulation to predict how floats would move in ocean currents. Here, the model simulates the release of a group of floats near Cape Hatteras, with the three panels showing float locations after one month, one year, and ten years. The complexity of the oceans currents causes these floats to rapidly spread apart, and the details of this spreading are important for predicting the oceans response to climate change. Colors indicate the depth of the floats, with red trajectories near the surface and blue ones in deeper waters.
Image Of the Day caption:
Sam Levang, a graduate student in the MIT-WHOI Joint Program, uses models to simulate ocean circulation. Into his virtual ocean, he injects synthetic floats to see where ocean currents take the floats. Here, synthetic floats were released near Cape Hatteras (yellow star). These three panels show the trajectories and locations of the floats after one month, one year, and ten years. The complexity of the ocean's currents causes these floats to spread apart rapidly. The details of this spreading are important to predict the ocean's response to climate change. Colors indicate the depth of the floats, with red trajectories near the surface and blue ones in deeper waters.
Caption from Oceanus online:
"Synthetic" floats are used to generate trajectories in computer simulations of ocean circulation. Here, a group of floats are released near Cape Hatteras, with the three panels showing float locations after one month, one year, and ten years. The complexity of the ocean's currents causes these floats to rapidly spread apart, and the details of this spreading are important to predict the ocean's response to climate change. Colors indicate the depth of the floats, with red trajectories near the surface and blue ones in deeper waters.
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© Shane Gross/Greenpeace
© Woods Hole Oceanographic Institution
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Adobe Farmhouse Photography
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Courtesy of National Aeronautics and Space Administration
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Illustration by Eric S. Taylor, WHOI Creative
Illustration by Jack Cook
Illustration by Jayne Doucette
Illustration by Natalie Renier, WHOI Creative
Marine Imaging Technologies, LLC © Woods Hole Oceanographic Institution
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-- Other --
Illustration courtesy of Sam Levang
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Image courtesy of NOAA Ocean Exploration, Deep Connections 2019.
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etaylor: Oceanus magazine, Vol. 53, No. 2, pg. 33 jdoucette: Image Of the Day, 08/15/2018 etaylor: oceanus online
etaylor: Oceanus magazine, Vol. 53, No. 2, pg. 33
jdoucette: Image Of the Day, 08/15/2018
etaylor: oceanus online
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