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Animation Identification Numbers 1000 through 1099
Movie ID Title
An animation of Byrds flight path overlaid on RADARSAT data of Antarctica   1000   Byrd's Flight Path
Richard Byrds Flight (high-resolution still)   1001   Byrd's Flight
Flight path for the East Antarctic Ice Stream flyby.   1002   East Antarctic Ice Stream Path
Ice Streams in east Antarctica   1003   East Antarctic Ice Streams #1
Ice Streams in east Antarctica   1004   East Antarctic Ice Streams #2
Amundsen-Scott South Pole Station, Antarctica   1005   Prelude and South Pole
McMurdo Station   1006   McMurdo Station, Mt. Erebus
Close-up of a snow dune field.   1007   Another View of Snow Dunes
A graph of mean atmospheric temperature for the period 1882 to 1988   1008   Global Temperature
Mean atmospheric temperature from 1985 to 1992, shown on a rotating globe   1009   Global Temperature
Mean atmospheric temperature from 1985 to 1992, shown over North and South America   1010   USA Temperature
Movie showing the nine datasets with a sparkling wipe between each dataset as the globe turns.   1011   Nine Datasets on a Single Globe with Wipe Between Different Datasets
Movie with the nine datasets synchronized so it can be run as a continuous loop.   1012   Nine Datasets on a Single Globe with Wipe Between Different Datasets Run as a Continuous Two Minute Loop
Six globes showing data (biosphere, aerosols, radiant energy, air pollution, temperature, and water vapor) pull away from a single globe, to illustrate the measurements taken by the instruments on Terra   1013   Six Annotated Datasets Pull Away from a Single Globe
Still image from the 9-globes animation   1014   Terra 9-Globe Dataset
Rotating globe showing the SeaWiFS biosphere dataset.   1015   Single Globe Biosphere Dataset (SeaWiFS)
Time variation of water vapor on a rotating globe.   1016   Single Globe Water Vapor Dataset
A time series of global temperature on a rotating globe.   1017   Single Globe Temperature Dataset
A time series of fires around the world on a rotating globe.   1018   Single Globe Fires Dataset
The clouds dataset being shown on a rotating globe.   1019   Single Globe Clouds Dataset
Time variation of methane being shown on a rotating globe.   1020   Single Globe Methane Dataset
Time variation of atmospheric aerosols on a rotating globe.   1021   Single Globe Aerosols Dataset from the TOMS Instrument
Movie of time-variation of longwave radiation on a rotating globe.   1022   Single Globe Radiant Energy Dataset
Low-resolution movie   1023   Single Globe Vegetation Index Anomalies Dataset
A rotating Earth, using a composite image derived from the flyby of Galileo in December, 1990   1024   Single Globe Galileo Dataset
A slow flyby of the Terra satellite in orbit   1025   Terra Satellite Beauty Pass
Monthly cumulative job growth in the United States on a state-by-state basis since January, 1993. The animation counts off a month-by-month cumulative total of new jobs created, ending at the 20 million figure released the day the animation was created, in December, 2000.   1026   Twenty Million New Jobs (for White House)
A comparison of daily precipitation observed by TRMM for September, 1999, with rainfall from a new forecast technique   1027   Predicted vs. Observed Daily Rainfall from TRMM: September 1999 (with Dates and Slower)
A comparison of daily precipitation observed by TRMM for September, 1999, with rainfall from a new forecast technique   1028   Predicted vs. Observed Daily Rainfall from TRMM: September, 1999 (with Dates)
A comparison of daily precipitation observed by TRMM for September, 1999, with rainfall from a new forecast technique   1029   Predicted vs. Observed Daily Rainfall from TRMM: September, 1999 (without Dates)
A comparison of daily precipitation observed by TRMM for September, 1999, with rainfall from a new forecast technique   1030   Predicted vs. Observed Daily Rainfall from TRMM: September, 1999 (without Dates and Slower)
A fly in to a set of nested 3D isosurfaces of constant precipitation density for Hurricane Bonnie, measured by TRMM on August 22, 1998   1031   Hurricane Bonnie (1998) 'Crystal Cathedral' View of Precipitation with TRMM Data
A fly in to a set of nested 3D isosurfaces of constant precipitation density for Hurricane Bonnie, measured by TRMM on August 22, 1998. The isosurfaces are removed one by one until only the highest density surface remains, then the surfaces are restored in reverse order.   1032   Hurricane Bonnie (1998) Dissolving 'Crystal Cathedral' View of Precipitation With TRMM Data
A flyby from Albemarle Sound to the Cape Hatteras National Seashore in North Carolina, using Landsat imagery   1033   Cape Hatteras Flyby
A flyby from Albemarle Sound to the Cape Hatteras National Seashore in North Carolina, using Landsat data   1034   Cape Hatteras Flyby 2
Showing the urban growth of Washginton, D.C. by dissolving between data collected in 1973, 1980, 1985, 1990, and 1996.   1035   Full Shot of DC Area
Starting with a view of the Washington, D.C., metropolitan area, the D.C. border and the Beltway fade in. The view then shifts to Manassas and Woodbridge, Virginia, indicating urban growth with red dots. Data sets for 1973, 1980, 1985, 1990, and 1996 are presented chronologically.   1036   Zoom Down to Manassas and Woodbridge, VA
Starting with a view of the Washington, D.C., metropolitan area, the D.C. border and the Beltway fade in. The view then shifts to Reston and Sterling, Virginia, indicating urban growth with red dots. Data sets for 1973, 1980, 1985, 1990, and 1996 are presented chronologically.   1037   Urban Growth: Reston and Sterling, VA
Starting with a view of the Washington, D.C., metropolitan area, the D.C. border and the Beltway fade in. The view then shifts to Mount Airy, Maryland, indicating urban growth with red dots. Data sets for 1973, 1980, 1985, 1990, and 1996 are presented chronologically.   1038   DC Zoom down to Mount Airy, MD
Starting with a view of the Washington, D.C., metropolitan area, the D.C. border and the Beltway fade in. The view then shifts to Columbia and Laurel, Maryland, indicating urban growth with red dots. Data sets for 1973, 1980, 1985, 1990, and 1996 are presented chronologically.   1039   Urban Growth: Columbia and Laurel, MD
Starting with a view of the Washington, D.C., metropolitan area, the D.C. border and the Beltway fade in. The view then shifts to Bowie, Maryland, indicating urban growth with red dots. Data sets for 1973, 1980, 1985, 1990, and 1996 are presented chronologically.   1040   Urban Growth: Bowie, MD
Starting with a view of the Washington, D.C., metropolitan area, the D.C. border and the Beltway fade in. The view then shifts to Waldorf, Maryland, indicating urban growth with red dots. Data sets for 1973, 1980, 1985, 1990, and 1996 are presented chronologically.   1041   Urban Growth: Waldorf, MD
Starting with a view of the Washington, D.C., metropolitan area, the D.C. border and the Beltway fade in. The view then pushes in, indicating urban growth with red dots. Data sets for 1973, 1980, 1985, 1990, and 1996 are presented chronologically.   1042   Urban Growth: Washington, District of Columbia
Starting with a view of Portland, Oregon, and its vicinity, with the boundary visible, we push in to the southern area and pan around the city moving clockwise, eventually pulling out to view the entire city again.   1043   Urban Growth: Portland, Oregon
Starting with a view of the Portland, Oregon, vicinity, we push in to the north-eastern section, along the Columbia River. Red dots appear showing the areas where growth has occurred between 1986 and 1996.   1044   Urban Growth: Focusing on the Columbia River Region of Portland, Oregon
Morph animation of Antarctica from 20,000 years ago to the present.   1045   Antarctica Morph through Time: Ross Ice Shelf View
Starting with a view of the Portland, Oregon, vicinity, we push in to the north-west section called Beaverton. Red dots appear showing the areas where growth has occurred between 1986 and 1996.   1046   Urban Growth: The Beaverton Area of Portland, Oregon
Starting with a view of the Portland, Oregon, vicinity, we push in to the western section, viewing the area of Happy Valley and Sunnyside area. Red dots appear showing the areas where growth has occurred between 1986 and 1996.   1047   Urban Growth: The Happy Valley and Sunnyside Areas of Portland, Oregon
Starting with a view of the Portland, Oregon, vicinity, we push in to the southern section, viewing a town called Oregon City. Red dots appear showing the areas where growth has occurred between 1986 and 1996.   1048   Urban Growth: The Oregon City Area of Portland, Oregon
A flyby of Atlanta showing visible imagery, daytime thermal data, and nighttime thermal data taken by an airborne ATLAS instrument on May 11 and 12, 1997. This imagery is surrounded by Landsat Thematic Mapper data taken on June 27, 1998. The flyby is followed by a timelapse of land use in the region from 1973 to 1997 from Landsat data and a sequence of GOES imagery showing cloud and thunderstorm formation over the Atlanta heat island.   1049   3D Atlanta Heat Island
Starting with a full earth view, this animation zooms to and around Antarctica as the continent morphs from the present day topography to the topography of the last glacial maximum and back to that of the present.   1050   Antarctica Morph through Time: Continental Zoom
A flyby of Atlanta showing visible imagery taken by an airborne ATLAS instrument on May 11 and 12, 1997. This imagery is surrounded by Landsat Thematic Mapper data taken on June 27, 1998.   1051   Zoom and Spin Around Atlanta: True Color
A flyby of Atlanta showing thermal imagery taken during the day by an airborne ATLAS instrument on May 11 and 12, 1997. This imagery is surrounded by Landsat Thematic Mapper data taken on June 27, 1998.   1052   Zoom and Spin Around Atlanta: Daytime Thermal View of the Heat Island
A flyby of Atlanta showing thermal imagery taken during the night by an airborne ATLAS instrument on May 11 and 12, 1997. This imagery is surrounded by Landsat Thematic Mapper data taken on June 27, 1998.   1053   Zoom and Spin Around Atlanta: Nighttime Thermal View of the Heat Island
Viewing Antarctica, using model data to estimate what it would have looked liked 20,000 years ago, and as it changed over time to become present day Antarctica.   1054   Antarctica Morph Through Time: Ellsworth Land View
Atlanta Land Use 1973   1055   Atlanta Land Use
True color Landsat image, Shenzhen, China, 1996.   1056   Shenzhen, China Land Use - True Color
True color Landsat image with date, Shenzhen, China, 1996.   1057   Shenzhen, China Land Use - True Color 1988 to 1996 (With Dates)
True color Landsat image, Shenzhen, China, 1996.   1058   Shenzhen, China Land Use - True Color Fade 1988 to 1996
True color Landsat image with date, Shenzhen, China, 1996.   1059   Shenzhen, China Land Use - True Color Fade 1988 to 1996 (With Dates)
False color Landsat image, Shenzhen, China, 1996.   1060   Shenzhen, China Land Use - False Color 1988 to 1996
False color Landsat image with date, Shenzhen, China, 1996.   1061   Shenzhen, China Land Use - False Color 1988 to 1996 (With Dates)
False color Landsat7 image, Shenzhen, China, 1996.   1062   Shenzhen, China Land Use- False Color Fade 1988 to 1996
False color Landsat image with date, Shenzhen, China, 1996.   1063   Shenzhen, China Land Use - False Color Fade 1988 to 1996 (With Dates)
Viewing Antarctica, using model data to estimate what it would have looked liked 20,000 years ago, and as it changed over time to become present day Antarctica.   1064   Antarctica Morph Through Time: Marie Byrd Land View
A combined image of clouds from GOES and sea surface temperatures from TRMM in the Atlantic on August 28, 1998. This image shows Hurricane Bonnie over the East Coast of the United States and the cool water track that Bonnie left in its wake. Hurricane Danielle is in the lower right corner of the image.   1065   Sea Surface Temp and Hurricane Connections: TRMM and GOES, Aug. 22, 1998 - Sept. 3, 1998 (Basic)
A combined image of clouds from GOES and sea surface temperatures from TRMM in the Atlantic on August 28, 1998. This image shows Hurricane Danielle right on top of the cooler ocean region caused by Hurricane Bonnie.   1066   Sea Surface Temp and Hurricane Connections: TRMM and GOES, Aug. 22, 1998 - Sept. 3, 1998 (Deluxe)
Hurricanes Bonnie and Danielle from GOES-8 on August 28, 1998   1067   Sea Surface Temperature and Hurricane Connections: GOES - August 22, 1998 Through September 3, 1998
An image of sea surface temperatures from TRMM in the Atlantic on August 28, 1998. This image shows the wake of cool water left by Hurricane Bonnie as it approached the East Coast of the United States. On this date, Bonnie is over Cape Hatteras.   1068   Sea Surface Temperature and Hurricane Connections: TRMM - August 22, 1998 Through September 3, 1998
Arctic sea ice concentrations in March of each year from 1979 through 1998   1069   March Monthly Sea Ice Concentrations for 1979-1998 (White)
Arctic sea ice concentrations in March of each year from 1979 through 1998   1070   March Monthly Sea Ice Concentrations for 1979-1998 (Green)
Arctic sea ice concentrations in March of each year from 1979 through 1998   1071   March Monthly Sea Ice Concentrations for 1979-1998 (Purple)
Arctic sea ice concentrations in September of each year from 1979 through 1998   1072   September Monthly Sea Ice Concentrations for 1979-1998 (White)
Arctic sea ice concentrations in September of each year from 1979 through 1998   1073   September Monthly Sea Ice Concentrations for 1979-1998 (Green)
Arctic sea ice concentrations in September of each year from 1979 through 1998   1074   September Monthly Sea Ice Concentrations for 1979-1998 (Purple)
Arctic Sea Ice Thickness from 1940 through 2060 from the GFDL Coupled Global Climate Model   1075   Modeled Arctic Sea Ice Thickness From 1940 Through 2060: View #1
Arctic Sea Ice Thickness from 1940 through 2060 from the GFDL Coupled Global Climate Model   1076   Modeled Arctic Sea Ice Thickness from 1940 through 2060: View #2
Arctic Sea Ice Thickness from 1940 through 2060 from the GFDL Coupled Global Climate Model   1077   Modeled Arctic Sea Ice Thickness From 1940 Through 2060: View #3
Arctic Sea Ice Thickness from 1940 through 2060 from the GFDL Coupled Global Climate Model   1078   Modeled Arctic Sea Ice Thickness From 1940 Through 2060: View #4
Arctic Sea Ice Thickness from 1940 through 2060 from the GFDL Coupled Global Climate Model   1079   Modeled Arctic Sea Ice Thickness From 1940 Through 2060: View #5
An animation of sea surface temperature anomaly in the Pacific Ocean from December 1997 to April 2000, as measured by NOAA AVHRR   1080   El Niño-La Niña Sea Surface Temperature Anomaly: December 1997 Through April 2000
An animation of sea surface height anomaly in the Pacific Ocean from December, 1997, to April, 2000, as measured by TOPEX-Poseidon   1081   El Niño-La Niña Sea Surface Height Anomaly: December 1997 Through April 2000
An animation of sea surface temperature, height, and wind anomalies in the Pacific for December 1997 through April 2000. (Wind anomalies stop at April, 2000.)   1082   El Niño-La Niña Sea Surface Temperature, Height, and Wind Anomalies: Dec. 1997 Through Apr. 2000
An animation of sea surface temperature and height anomalies in the Pacific for December 1997 through April 2000, from NOAA AVHRR and TOPEX Poseidon   1083   El Niño-La Niña Sea Surface Temp and Height Anomaly 3D Isometric View: Dec. 1997 Through Apr. 2000
An morph of sea surface temperature and height anomalies in the Pacific between December, 1997, and December, 1998, from NOAA AVHRR and TOPEX Poseidon   1084   El Niño-La Niña Sea Surface Temperature and Height Anomaly 3D Isometric Morph: Dec. 1997 to Dec. 1998
An animation of sea surface temperature anomaly, sea surface height anomaly, and sea temperature anomaly at depth in the Pacific Ocean from December 1997 through April 2000, as measured by NOAA AVHRR, TOPEX Poseidon, and the TAO TRITON Array   1085   El Niño-La Niña Cross-section of Temperature and Height Anomalies: December 1997 through April 2000
An animation of sea surface temperature and height anomalies in the Pacific for December 1997 through April 2000.   1086   El Niño-La Niña Sea Surface Temperature and Height Anomalies: December 1997 Through April 2000
Arctic ozone depletion on March 30, 2000 as measured by Earth Probe TOMS   1087   TOMS Ozone in the Northern Hemisphere: Feb 1, 2000-March 30, 2000
Valles Marineris Flyover   1088   Valles Marineris Flyover (Long Version)
Image of Mars with colors indicating the strength of the gravitational field.   1089   MOLA Surface Topography With Gravity Texture Map
Rotating Mars with colors indicating surface elevation.   1090   MOLA Surface Topography With Surface Elevation Texture Map
Viking image of Mars applied to MOLA topography.   1091   MOLA Surface Topography With Viking Texture Map
Rotating Mars mantle colored to indicate mantle elevation.   1092   Mars Mantle (MOHO) Topography With Mantle Elevation Texture Map
Valles Marineris Flyover   1093   Valles Marineris Flyover (Short Version)
A view of Olympus Mons, approaching the base of the volcano.   1094   Olympus Mons Flyover
Mars North Pole top-down view   1095   Mars North Pole Flyover
In this visualization, using MOLA data, we take a closer look at where the hidden channel of water is located.   1096   MOLA Zooming Down to Reveal a Hidden Channel (Fast Version)
In this image, using MOLA data, we display where the hidden channel of water is located.   1097   MOLA Zooming Down to Reveal a Hidden Channel (Slow)
This animation is a set up visualization. Using the Viking data, the camera zooms down towards the area where there might be hidden water channels.   1098   Viking Texture Zooming Down to Reveal a Hidden Channel (Fast)
This animation is a set up visualization. Using the Viking data, the camera zooms down slowly towards the area where there might be hidden water channels.   1099   Viking Texture Zoom Down (Slow)
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