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Animation Identification Numbers 3000 through 3099
Movie ID Title
The yellow line indicates the actual path of hurricane Isabel. The green line indicates the path predicted by the FVGCM model. The background is a visualization of the cloud coverage predicted by the model.   3000   Hurricane Isabel Model: Clouds
The yellow line indicates the actual path of hurricane Isabel. The green line indicates the path predicted by the FVGCM model. The background is a visualization of the Total Precipitable Water predicted by the model.   3001   Hurricane Isabel Model: Precipitable Water
The yellow line indicates the path of hurricane Isabel. The green line indicates the path predicted by the FVGCM model. The background is a visualization of the Total Precipitable Water predicted by the model, superimposed onto the predicted cloud coverage.   3002   Hurricane Isabel Model: Clouds and Precipitable Water
Hurricane Ivan, September 9, 2004, Aqua Satellite   3003   Hurricane Ivan Heads Towards Jamaica
With the countries outlined, one can see excatly locate where the Hurricane Ivan is.   3004   Hurricane Ivan Closes in on Jamaica
Hurricane Ivan, September 9, 2004, Aqua Satellite   3005   Hurricane Ivan Progression
Hurricane Ivan, September 9, 2004, Aqua Satellite   3006   Hurricane Ivan Progression with Fixed View
Hurricane Ivan on September 14, 2004   3007   Hurricane Ivan Progression as Seen by MODIS September 9-14, 2004
Hurricane Ivan on September 13, 2004. Blue represents areas with at least 0.25 inches of rain per hour.   3008   Hurricane Ivan Rainfall Structure on September 13, 2004
Hurricane Ivan on September 15, 2004. The rain structure is taken by TRMMs Precipitation Radar (PR). Precipitation Radar has a horizontal resolution at the ground of about 2.5 miles (four kilometers) and a swath width of 137 miles (220 kilometers). One of its most important features will be its ability to provide vertical profiles of the rain and snow from the surface up to a height of about 12 miles (20 kilometers). It looks underneath of the storms clouds to reveal the underlying rain structure. Blue represents areas with at least 0.25 inches of rain per hour. High vertical bands on the outside of the storm indicated that Hurricane Ivan was very likely to spawn tornados in Florida and Georgia.   3009   TRMM Looks at the Rain Fueling Hurricane Ivan on September 15, 2004
Hurricane Ivan on September 9, 2004. It looks underneath of the storms clouds to reveal the underlying rain structure. Blue represents areas with at least 0.25 inches of rain per hour.   3010   Hurricane Ivan Rainfall Structure Seen from TRMM September 9, 2004
TRMM provides this view of Hurricane Ivan on September 16, 2004, as its eye makes landfall. TRMM lets us see through the clouds. Blue represents areas with at least 0.25 inches of rain per hour.   3011   Hurricane Ivan Rainfall Structure seen by TRMM on September 16, 2004
This picture shows the position of the eye of Hurricane Ivan, as well as, the intensity of the storm. The intensity of the storm is depicted through color. See color bar for a detailed description of the values.   3012   Hurricane Ivan Track and Intensity September 2-19, 2004
First, Hurricane Frances brought record rainfalls to the Bahamas, Florida, and Georgia. Then, Hurricane Ivan inundated Jamaica, Cuba, Alabama, and Florida.   3013   Hurricane Ivan Rain Accumulation September 2-19, 2004 (wide view)
Hurricanes Frances and Ivan rain accumulations   3014   Hurricane Ivan Rain Accumulation September 2-19, 2004 (close view)
Hurricane Ivan, September 9, 2004, Terra Satellite   3015   A Fixed View of Hurricane Ivan
September 23, 2004 The blue isosurface represents areas with at least 0.25 inches of rain per hour.   3016   TRMM Precipiation Radar Observes Rain Structure of Hurricane Jeanne on September 23, 2004
Hurricane Jeanne, September 23, 2004, Terra Satellite   3017   Hurricane Jeanne on September 23, 2004
Hurricane Jeanne, September 22, 2004, Terra Satellite   3018   A Fixed View of Hurricane Jeanne's Progression
Hurricane Jeanne, September 22, 2004, Terra Satellite   3019   Hurricane Jeanne's Progression with a Fixed View
Hurricane Jeanne, September 24, 2004, Terra Satellite   3020   Up Close and Personal with Hurricane Jeanne
Hurricane Jeanne, September 22, 2004, Terra Satellite   3021   Hurricane Jeanne Crashes into Florida
Areas of red show where at least 3 inches of accumulated rain were recorded between September 2, 2004 and September 28, 2004.. Areas of yellow show 1 inch of accumulated rain. The green path represents the track of Hurricane Frances from August 25, 2004 till September 9, 2004. The red line represents the track of Hurricane Ivan from September 2, 2004 till September 23, 2004. Purple is Hurricane Jeanne from September 13, 2004 till September 28, 2004.   3022   Hurricanes Frances, Ivan, and Jeanne Bring Record Rainfall
The source of power that feeds a hurricane is its rainfall. The TRMM spacecraft allows us to look beneath the clouds to see the structure of the rain.   3023   TRMM Tropical Microwave Imager (TMI) Sees the Power of Hurricane Jeanne on September 25, 2004
The TRMM spacecraft allows us to see beneath the clouds from Hurricane Jeanne to see the rain which powers the storm.   3024   TRMM Tropical Microwave Imager (TMI) Sees the Power of Hurricane Jeanne on September 26, 2004
The TRMM spacecraft allows us to see beneath the clouds from Hurricane Jeanne to see the rain which powers the storm.   3025   TRMM Tropical Microwave Imager (TMI) view of Hurricane Jeanne on September 27, 2004
This picture shows the intensity of the storm through color. Purple is the weakest classification, Tropical Depression.Red is the most deadly classification, Hurricane Five.   3026   Hurricane Ivan Track and Intensity September 2-23, 2004
This animation shows snow cover over North America during the winter of 2001-2002. Data was collected every 8 days, and the results are shown fading into the next valid data set.   3027   Snow Cover over North America during the Winter of 2001-2002 (WMS)
A rendering of the model of the Earths magnetosphere. The flat ribbons represent charged particles entering the influence of the magnetosphere and being deflected. The curved lines visible to the right represent the magnetic field lines extending out from the Earth. The force from the sun pushes these lines into a distinctive tail-like shape. Finally, the green surface represents a constant value for the magnetic field strength.   3028   A 3-Dimensional Model of the Magnetosphere (WMS)
Global pseudo-color Landsat image from the JPL WMS server.   3029   Zoom into Austin, Texas, using Landsat Imagery (WMS)
Global pseudo-color Landsat image from the JPL WMS server.   3030   Zoom into Boulder, Colorado, using Landsat Imagery (WMS)
Global pseudo-color Landsat image from the JPL WMS server.   3031   Zoom into NASA's Goddard Space Flight Center, using Landsat Imagery (WMS)
This animation shows the prediction of cloud cover during Hurricane Isabel made by NASAs fvGCM model.   3032   Model of Clouds during Hurricane Isabel, 2003 (WMS)
This animation shows the prediction of precipitable water during Hurricane Isabel made by NASAs fvGCM model.   3033   Model of Precipitable Water during Hurricane Isabel, 2003 (WMS)
This animation shows the cumulative rainfall caused primarily by hurricanes during September 2004.   3034   Accumulated Rainfall during Hurricanes Frances, Ivan, and Jeanne, 2004 (WMS)
Image Sequence of Hurricane Jeanne.   3035   Progression of Hurricane Jeanne, 2004 (WMS)
This animation shows the temperature of the sea ice near the north pole in 2002-2003.   3036   Daily Sea Ice Surface Temperature 2002-2003 (WMS)
This animation shows the temperature of the sea ice surface near the north pole in 2002-2003. The region is covered by darkness when no measurements were taken.   3037   Sea Ice Surface Temperature with Regions of No Data Indicated (WMS)
Antarctic ozone on 22 September 2004   3038   The 2004 Antarctic Ozone Hole
End of scripted ICESat path   3039   ICESat Cloud Walls (scripted camera path)
ICESat clouds south to north spiral   3040   ICESat Cloud Walls (south to north spiral camera path)
Lunar fly-by and Earth approach   3041   Lunar Fly By and Earth Approach
Lunar beauty shot   3042   Lunar Beauty Shot
Sea surface temperature anomaly for 2004 Aug 5   3043   Indecisive El Nino Exhibits 'Split Personality'
Fly over of Apollo lunar landing sites   3044   Apollo Lunar Landing Sites
A close-up, showing the track of Ivan (in yellow) and the fvGCM model track (in green), up the to point of land fall.   3045   fvGCM Climate Model and Hurricane Ivan Track
An image illustrating the global nature of the fvGCM model. The white cloud-like features show the cloud cover and total moisture calculated by the model and help to illustrate wind motion. The modeled hurricane Ivan is visible in the center of the image.   3046   fvGCM Climate Model and Hurricane Ivan Global View
This still image shows the 22-Year surface temperature trend over the Arctic.   3047   22-Year Arctic Surface Temperature Trend
During the pre-storm time, the inner region of the belts has a relatively low particle flux and for this scaling of the data, a distinct inner belt is not visible as a separate structure.   3048   Earth's Radiation Belts Tremble Under Impact of Solar Storm
As particle-induced electric fields increase, the low-energy electrons of the plasmasphere are convected towards the magnetopause, depleting the region near the Earth and enabling the hotter particles from the radiation belts to move closer to the Earth.   3049   Radiation Belts and Plasmapause Fluctuate Under Solar Storm
A view of the plasmasphere above the north geographic pole.   3050   Tour of the Plasmasphere and Plasmapause
A portion of the plasmasphere convects out to the magnetopause where it terminates.   3051   Plasmapause Convects to the Magnetopause During Halloween Solar Storm
As the belts return to their quiescent state, radiation levels at the satellite decrease.   3052   Earth's Radiation Belts with Safe Zone Orbit
Print resolution image showing the retreat of Jakobshavns calving front from 2001 to 2003.   3053   Jakobshavn Glacier Calving Front Recession (2001-2003)
As the Jakobshavn Glacier discharges ice from its mouth, tributary ice streams show signs of acceleration. This series of Landsat images from 2002 shows rapid migration of ice features downstream, triggering adjacent land ice to accelerate downslope. A sequence of 7 Landsat images cycles at the end of the animation repeatedly to better see the flow.   3054   Jakobshavn Glacial Floe
Print resolution image showing the retreating front over the past 150 years.   3055   History of Jakobshavn Glacier Recession
Chlorine Monoxide, August 13, 2004   3056   New Data from Aura's Microwave Limb Sounder (MLS) Chlorine Monoxide
Water Vapor, August 13, 2004   3057   New Data from Aura's Microwave Limb Sounder (MLS) Water Vapor
Hydrochloric Acid, August 13, 2004   3058   New Data from Aura's Microwave Limb Sounder (MLS) Hydrochloric Acid
Nitric Acid, August 13, 2004   3059   New Data from Aura's Microwave Limb Sounder (MLS) Nitric Acid
Ozone, August 13, 2004   3060   New Data from Aura's Microwave Limb Sounder (MLS) Ozone
Temperature, August 13, 2004   3061   New Data from Aura's Microwave Limb Sounder (MLS) Temperature
EOS MLS continues the successful effort started on UARS MLS, and uses advanced technology to provide important new measurements. Particularly noteworthy in this regard are its capabilities for OH, HO2, and BrO; measurements of these species have never before been possible on a global scale, but are essential for a comprehensive understanding of stratospheric chemistry.   3062   The Microwave Limb Sounder Observes the Lower Stratosphere and Upper Troposphere
Hurricane Ivan spinning through the Gulf of Mexico   3063   fvGCM Climate Model of Hurricane Ivan (hourly/closeup view)
3D volumetric visualization of Hurricane Frances   3064   fvGCM Climate Model of Hurricane Frances and other storms
Sea ice minimum extent for 1979.   3065   Sea Ice Minimum Extent for 1979-2004
In 2004, the maximum ozone hole occurred on September 22, 2004.   3066   Aura/OMI Ozone Hole from September 12, 2004 to November 15,2004
In 2004, the maximum ozone hole occurred on September 22, 2004.   3067   Aura/OMI Ozone Hole from September 12, 2004 to November 15, 2004 with Polar Vortex Demarced
October 12, 2004   3068   AURA/OMI Tropospheric Ozone over South America
October 12, 2004   3069   AURA/OMI Tropospheric Ozone over South America and Africa
October 12, 2004   3070   AURA/OMI Tropospheric Ozone over Indonesia
September 28, 2004 : Areas of red represent high levels (50+ DU) and areas of blue represent low areas (20 DU).   3071   AURA/OMI Tropospheric Ozone On a Flat Map
Jakobshavn glacier flow with 1992 data in red and 2000 data in blue   3072   Jakobshavn Glacier, Greenland flow field
This image shows Nitrogen Dioxide (NO2) from October 8, 2004 on top of the Earth at Night image. Nitrogen Dioxide concentration is clearly evident over the San Diego, Los Angeles, Phoenix, Denver, Houston, Dallas, Chicago, Detroit, Cleveland, Toronto, Birmingham, Washington DC, Philadelphia, and New York. Clouds that obscure the satellite's ability to measure NO2, cover several other urban areas like Kansas City, St. Louis, and Atlanta.   3073   NO2 concentration over the United States from September 24, 2004, through November 7, 2004
This image is of Nitrogen Dioxide, NO2, on October 16, 2004.   3074   Nitrogen Dioxide concentration over China from September 24, 2004, to November 7, 2004
Fires seen from space on October 7, 2004   3075   Biomass Burning over South America
Newly updated print resolution image showing the retreat of Jakobshavns calving front from 2001 to 2004.   3076   Jakobshavn Glacier Calving Front Recession Updated (2001-2004)
Updated print resolution image showing the retreating front over the past 150 years.   3077   Updated History of Jakobshavn Glacier Recession (1850-2004)
November 9, 2004   3078   Iceberg Slows Shipping Lanes to McMurdo Station
November 9, 2004   3079   Long Island Size Iceberg Slows Shipping Lanes
A side by side comparison of Long Island and B-15A iceberg   3080   Long Island Size Iceberg Blocks Penguins Feeding Grounds
This animation shows iceberg B-15A drifting in McMurdo Sound.   3081   Giant Iceberg in McMurdo Sound (WMS)
This animation shows global ozone in the atmosphere from August 13 through October 15, 2004. Red represents high ozone concentrations; blue represents low concentrations. The spatial resolution is low: each pixel covers an area of 5 degrees longitude by 2 degrees latitude, so the entire world (except for 1 degree at each pole) is covered by the 72x89 pixel images.   3082   Ozone from new Microwave Limb Sounder on Aura (WMS)
January 7, 2005 . This image shows 27 hours of accumulated rainfall. The accumulation is shown in colors ranging from green (less than 50 mm of rain) through red (200 mm or more).   3083   NASA Satellite Reveals Heavy Rainfall Patterns in California
Outlining Long Island, NY   3084   Snap! Crackle! POP! Goes the Iceberg!
November 9, 2004   3085   Sea Ice Held Captive Gets Break
November 9, 2004   3086   Antarctic Iceberg Breaks Up Ice Sheet
November 9, 2004   3087   Long Island Size Iceberg Collides with Ice Sheet
This animation shows chlorine monoxide (ClO) in the atmosphere from August 13 through October 15, 2004. Red represents high concentrations; blue represents low concentrations. The spatial resolution is low: each pixel covers an area of 5 degrees longitude by 2 degrees latitude, so the entire world (except for 1 degree at each pole) is covered by the 72x89 pixel images.   3088   Chlorine Monoxide from new Microwave Limb Sounder on Aura (WMS)
This animation shows the monthly average clear-sky albedo from CERES for July 2002 through June 2004.   3089   Average Clear-sky Albedo (WMS)
This animation shows the monthly average total-sky albedo from CERES for July 2002 through June 2004.   3090   Average Total-sky Albedo (WMS)
This animation shows the monthly average clear-sky outgoing longwave flux from CERES for July 2002 through June 2004.   3091   Average Clear-sky Outgoing Longwave Flux (WMS)
This animation shows the monthly average total-sky outgoing longwave flux from CERES for July 2002 through June 2004.   3092   Average Total-sky Outgoing Longwave Flux (WMS)
This animation shows the monthly average clear-sky net radiant flux from CERES for July 2002 through June 2004.   3093   Average Clear-sky Net Radiant Flux (WMS)
This animation shows the monthly average total-sky net radiant flux from CERES for July 2002 through June 2004.   3094   Average Total-sky Net Radiant Flux (WMS)
This animation shows the monthly average total-sky incoming solar flux from CERES for July 2002 through June 2004.   3095   Average Total-sky Incoming Solar Flux (WMS)
This animation shows the monthly average clear-sky outgoing shortwave flux from CERES for July 2002 through June 2004.   3096   Average Clear-sky Outgoing Shortwave Flux (WMS)
This animation shows the monthly average total-sky outgoing shortwave flux from CERES for July 2002 through June 2004.   3097   Average Total-sky Outgoing Shortwave Flux (WMS)
This animation shows a flat map version of the southern polar vortex at 550 degrees Kelvin during part of 2004.   3098   Polar Vortex (WMS)
This animation shows hydrogen chloride (HCl) in the atmosphere from August 13 through October 15, 2004. Red represents high concentrations; blue represents low concentrations. The spatial resolution is low: each pixel covers an area of 5 degrees longitude by 2 degrees latitude, so the entire world (except for 1 degree at each pole) is covered by the 72x89 pixel images.   3099   Hydrogen Chloride from new Microwave Limb Sounder on Aura (WMS)
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