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Images of Florida and Goddard Space Flight Center (GSFC)
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OSO Launch
| Title |
OSO Launch |
| Full Description |
NASA successfully launched more than 200 Earth-orbiting satellites, including Goddard's eighth Orbiting Solar Observatory aboard this Delta rocket on June 21,1975, at Cape Canaveral, Florida. The satellite-the final in a series of spacecraft specifically designed to look at the Sun in high-energy wavelength bands that scientists cannot see on Earth-gathered data on energy transfer in the Sun's hot, gaseous atmosphere and its 11-year sunspot cycle. Sunspots are cooler regions that appear as dark patches in the visible surface of the Sun and are more plentiful every 11 years. Flares and other powerful solar events that sometimes wreak havoc with Earth's communications systems also are associated with heightened sunspot activity. In addition to looking at the Sun, the satellite investigated celestial sources of X-rays in the Milky Way and beyond. It carried eight experiments. |
| Date |
01/01/1975 |
| NASA Center |
Goddard Space Flight Center |
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Dynamic Test Chamber
| Title |
Dynamic Test Chamber |
| Full Description |
NASA's International Sun-Earth Explorer C (ISEE C) was undergoing testing and evaluation inside Goddard's dynamic test chamber when this photo was taken. Working inside a dynamic test chamber, Goddard engineers wear protective "clean room" clothing to prevent microscopic dust particles from damaging the sophisticated instrumentation. NASA launched the 16-sided polyhedron, which weighed 1,032 lbs. (469 kg.), from Cape Canaveral, Florida, on August 12, 1978. From its halo orbit 932,000 miles (1.5 million km.) from Earth, the satellite monitored the characteristics of solar phenomena about one hour before its companion satellites-ISEE-A and ISEE-B-observed the same phenomena from a much closer near-Earth orbit. The correlated measurements supported the work of 117 scientific investigators who were trying to get a better understanding of how the Sun controls Earth's near-space environment. The scientists represented 35 universities in 10 nations |
| Date |
11/06/1976 |
| NASA Center |
Goddard Space Flight Center |
|
Landsat 7 Looks at Coral Ree
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| Title |
Landsat 7 Looks at Coral Reefs: (1 of 2) |
| Abstract |
Coral forms off shore from volcanic islands in tropical latitudes, developing a barrier reef that's separated by a growing lagoon.But over time, while the surrounding ocean wears away the main body of the island, the coral ring remains. |
| Completed |
2000-10-23 |
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Landsat 7 Looks at Coral Ree
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| Title |
Landsat 7 Looks at Coral Reefs: (1 of 2) |
| Abstract |
Coral forms off shore from volcanic islands in tropical latitudes, developing a barrier reef that's separated by a growing lagoon.But over time, while the surrounding ocean wears away the main body of the island, the coral ring remains. |
| Completed |
2000-10-23 |
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Landsat 7 Looks at Coral Ree
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| Title |
Landsat 7 Looks at Coral Reefs: (1 of 2) |
| Abstract |
Coral forms off shore from volcanic islands in tropical latitudes, developing a barrier reef that's separated by a growing lagoon.But over time, while the surrounding ocean wears away the main body of the island, the coral ring remains. |
| Completed |
2000-10-23 |
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Landsat 7 Looks at Coral Ree
…
| Title |
Landsat 7 Looks at Coral Reefs: (1 of 2) |
| Abstract |
Coral forms off shore from volcanic islands in tropical latitudes, developing a barrier reef that's separated by a growing lagoon.But over time, while the surrounding ocean wears away the main body of the island, the coral ring remains. |
| Completed |
2000-10-23 |
|
Hurricane Jeanne on Septembe
…
| Title |
Hurricane Jeanne on September 23, 2004 |
| Abstract |
After days of hammering Haiti, Hurricane Jeanne heads toward the United States. |
| Completed |
2004-09-24 |
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TRMM Tropical Microwave Imag
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| Title |
TRMM Tropical Microwave Imager (TMI) sees the power of Hurricane Jeanne On September 25, 2004 |
| Abstract |
NASA's TRMM spacecraft is used by meteorologists to understand Hurricane Jeanne. TRMM saw this view of Hurricane Jeanne on September 25, 2004, just before it made landfall. The cloud cover is taken by TRMM's Visible and Infrared Scanner (VIRS). It looks underneath of the storm's clouds to reveal the underlying rain structure. Blue represents areas with at least 0.25 inches of rain per hour. Green shows at least 0.5 inches of rain per hour. Yellow is at least 1.0 inches of rain and red is at least 2.0 inches of rain per hour. |
| Completed |
2004-09-30 |
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TRMM Tropical Microwave Imag
…
| Title |
TRMM Tropical Microwave Imager (TMI) sees the power of Hurricane Jeanne On September 25, 2004 |
| Abstract |
NASA's TRMM spacecraft is used by meteorologists to understand Hurricane Jeanne. TRMM saw this view of Hurricane Jeanne on September 25, 2004, just before it made landfall. The cloud cover is taken by TRMM's Visible and Infrared Scanner (VIRS). It looks underneath of the storm's clouds to reveal the underlying rain structure. Blue represents areas with at least 0.25 inches of rain per hour. Green shows at least 0.5 inches of rain per hour. Yellow is at least 1.0 inches of rain and red is at least 2.0 inches of rain per hour. |
| Completed |
2004-09-30 |
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TRMM Tropical Microwave Imag
…
| Title |
TRMM Tropical Microwave Imager (TMI) sees the power of Hurricane Jeanne On September 25, 2004 |
| Abstract |
NASA's TRMM spacecraft is used by meteorologists to understand Hurricane Jeanne. TRMM saw this view of Hurricane Jeanne on September 25, 2004, just before it made landfall. The cloud cover is taken by TRMM's Visible and Infrared Scanner (VIRS). It looks underneath of the storm's clouds to reveal the underlying rain structure. Blue represents areas with at least 0.25 inches of rain per hour. Green shows at least 0.5 inches of rain per hour. Yellow is at least 1.0 inches of rain and red is at least 2.0 inches of rain per hour. |
| Completed |
2004-09-30 |
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TRMM Tropical Microwave Imag
…
| Title |
TRMM Tropical Microwave Imager (TMI) sees the power of Hurricane Jeanne On September 25, 2004 |
| Abstract |
NASA's TRMM spacecraft is used by meteorologists to understand Hurricane Jeanne. TRMM saw this view of Hurricane Jeanne on September 25, 2004, just before it made landfall. The cloud cover is taken by TRMM's Visible and Infrared Scanner (VIRS). It looks underneath of the storm's clouds to reveal the underlying rain structure. Blue represents areas with at least 0.25 inches of rain per hour. Green shows at least 0.5 inches of rain per hour. Yellow is at least 1.0 inches of rain and red is at least 2.0 inches of rain per hour. |
| Completed |
2004-09-30 |
|
TRMM Tropical Microwave Imag
…
| Title |
TRMM Tropical Microwave Imager (TMI) sees the power of Hurricane Jeanne On September 25, 2004 |
| Abstract |
NASA's TRMM spacecraft is used by meteorologists to understand Hurricane Jeanne. TRMM saw this view of Hurricane Jeanne on September 25, 2004, just before it made landfall. The cloud cover is taken by TRMM's Visible and Infrared Scanner (VIRS). It looks underneath of the storm's clouds to reveal the underlying rain structure. Blue represents areas with at least 0.25 inches of rain per hour. Green shows at least 0.5 inches of rain per hour. Yellow is at least 1.0 inches of rain and red is at least 2.0 inches of rain per hour. |
| Completed |
2004-09-30 |
|
TRMM Tropical Microwave Imag
…
| Title |
TRMM Tropical Microwave Imager (TMI) sees the power of Hurricane Jeanne On September 25, 2004 |
| Abstract |
NASA's TRMM spacecraft is used by meteorologists to understand Hurricane Jeanne. TRMM saw this view of Hurricane Jeanne on September 25, 2004, just before it made landfall. The cloud cover is taken by TRMM's Visible and Infrared Scanner (VIRS). It looks underneath of the storm's clouds to reveal the underlying rain structure. Blue represents areas with at least 0.25 inches of rain per hour. Green shows at least 0.5 inches of rain per hour. Yellow is at least 1.0 inches of rain and red is at least 2.0 inches of rain per hour. |
| Completed |
2004-09-30 |
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Hurricane Frances Progressio
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| Title |
Hurricane Frances Progression with Fixed View |
| Abstract |
Hurricane Frances races towards Florida and both the Terra and Aqua satellite are spectators. |
| Completed |
2004-09-03 |
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Hurricane Frances Progressio
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| Title |
Hurricane Frances Progression with Fixed View |
| Abstract |
Hurricane Frances races towards Florida and both the Terra and Aqua satellite are spectators. |
| Completed |
2004-09-03 |
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Hurricane Frances Progressio
…
| Title |
Hurricane Frances Progression with Fixed View |
| Abstract |
Hurricane Frances races towards Florida and both the Terra and Aqua satellite are spectators. |
| Completed |
2004-09-03 |
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Hurricane Frances Progressio
…
| Title |
Hurricane Frances Progression with Fixed View |
| Abstract |
Hurricane Frances races towards Florida and both the Terra and Aqua satellite are spectators. |
| Completed |
2004-09-03 |
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Hurricane Frances Progressio
…
| Title |
Hurricane Frances Progression with Fixed View |
| Abstract |
Hurricane Frances races towards Florida and both the Terra and Aqua satellite are spectators. |
| Completed |
2004-09-03 |
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Hurricane Frances Progressio
…
| Title |
Hurricane Frances Progression with Fixed View |
| Abstract |
Hurricane Frances races towards Florida and both the Terra and Aqua satellite are spectators. |
| Completed |
2004-09-03 |
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Hurricane Frances Progressio
…
| Title |
Hurricane Frances Progression with Fixed View |
| Abstract |
Hurricane Frances races towards Florida and both the Terra and Aqua satellite are spectators. |
| Completed |
2004-09-03 |
|
fvGCM and Hurricane Jeanne T
…
| Title |
fvGCM and Hurricane Jeanne Track |
| Abstract |
This animation shows the track of hurricane Jeanne, in yellow, and a track in green showing the path of Jeanne as predicted by the fvGCM model. The animation followsJeanne from the eastern Atlantic, to landfall in Florida, and north through Georgia. |
| Completed |
2005-06-27 |
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Hurricane Frances Progressio
…
| Title |
Hurricane Frances Progression with a Fixed View |
| Abstract |
A fixed view of the Atlantic Ocean with Hurricane Frances sprinting towards Florida |
| Completed |
2004-09-07 |
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Hurricane Frances Progressio
…
| Title |
Hurricane Frances Progression with a Fixed View |
| Abstract |
A fixed view of the Atlantic Ocean with Hurricane Frances sprinting towards Florida |
| Completed |
2004-09-07 |
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Hurricane Frances Progressio
…
| Title |
Hurricane Frances Progression with a Fixed View |
| Abstract |
A fixed view of the Atlantic Ocean with Hurricane Frances sprinting towards Florida |
| Completed |
2004-09-07 |
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Hurricane Frances Progressio
…
| Title |
Hurricane Frances Progression with a Fixed View |
| Abstract |
A fixed view of the Atlantic Ocean with Hurricane Frances sprinting towards Florida |
| Completed |
2004-09-07 |
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Hurricane Frances Progressio
…
| Title |
Hurricane Frances Progression with a Fixed View |
| Abstract |
A fixed view of the Atlantic Ocean with Hurricane Frances sprinting towards Florida |
| Completed |
2004-09-07 |
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Hurricane Frances Progressio
…
| Title |
Hurricane Frances Progression with a Fixed View |
| Abstract |
A fixed view of the Atlantic Ocean with Hurricane Frances sprinting towards Florida |
| Completed |
2004-09-07 |
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Hurricane Frances Progressio
…
| Title |
Hurricane Frances Progression with a Fixed View |
| Abstract |
A fixed view of the Atlantic Ocean with Hurricane Frances sprinting towards Florida |
| Completed |
2004-09-07 |
|
Hurricane Frances Progressio
…
| Title |
Hurricane Frances Progression with a Fixed View |
| Abstract |
A fixed view of the Atlantic Ocean with Hurricane Frances sprinting towards Florida |
| Completed |
2004-09-07 |
|
Hurricane Frances Progressio
…
| Title |
Hurricane Frances Progression with a Fixed View |
| Abstract |
A fixed view of the Atlantic Ocean with Hurricane Frances sprinting towards Florida |
| Completed |
2004-09-07 |
|
Tropical Storm Allison Progr
…
| Title |
Tropical Storm Allison Progression (WMS) |
| Abstract |
Tropical Storm Allison began just five days into the 2001 hurricane season. Allison formed in the warm waters of the Gulf of Mexico, and dumped an enormous amount of rain on Texas, Louisiana, Florida, and other states in the southeastern United States. |
| Completed |
2004-03-11 |
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National Map Showing Habitat
…
| Title |
National Map Showing Habitat Suitability for Tamarisk Invasion |
| Abstract |
The spread of invasive species is one of the most daunting environmental, economic, and human-health problems facing the United States and the World today. It is one of several grand challenge environmental problems being addressed by NASA's Science Mission Directorate through a national application partnership with the US Geological Survey. NASA and USGS are working together to develop a National Invasive Species Forecasting System (ISFS) for the management and control of invasive species on Department of Interior and adjacent lands. The system provides a framework for using USGS's early detection and monitoring protocols and predictive models to process MODIS, ETM+, ASTER and commercial remote sensing data, to create on-demand, regional-scale assessments of invasive species likely habitats. Recent work on the Invasive Species Forecasting System (ISFS) project has shown the importance of remotely-sensed time-series data in geostatistical models for mapping the distribution of Tamarisk and other invasive plant species. This video shows the habitat suitability for a Tamarisk invasion in the continental United States. Red indicates areas that are highly suitable and yellow indicates areas which are less suitable. Texas, New Mexico, and Nevada are the most highly suitable states. Utah and Arizona have the next greatest risk. California, Arizona, Montana, Colorado, Oregon, Ohio, Wyoming, and Florida also have a significant risk. |
| Completed |
2005-10-18 |
|
National Map Showing Habitat
…
| Title |
National Map Showing Habitat Suitability for Tamarisk Invasion |
| Abstract |
The spread of invasive species is one of the most daunting environmental, economic, and human-health problems facing the United States and the World today. It is one of several grand challenge environmental problems being addressed by NASA's Science Mission Directorate through a national application partnership with the US Geological Survey. NASA and USGS are working together to develop a National Invasive Species Forecasting System (ISFS) for the management and control of invasive species on Department of Interior and adjacent lands. The system provides a framework for using USGS's early detection and monitoring protocols and predictive models to process MODIS, ETM+, ASTER and commercial remote sensing data, to create on-demand, regional-scale assessments of invasive species likely habitats. Recent work on the Invasive Species Forecasting System (ISFS) project has shown the importance of remotely-sensed time-series data in geostatistical models for mapping the distribution of Tamarisk and other invasive plant species. This video shows the habitat suitability for a Tamarisk invasion in the continental United States. Red indicates areas that are highly suitable and yellow indicates areas which are less suitable. Texas, New Mexico, and Nevada are the most highly suitable states. Utah and Arizona have the next greatest risk. California, Arizona, Montana, Colorado, Oregon, Ohio, Wyoming, and Florida also have a significant risk. |
| Completed |
2005-10-18 |
|
National Map Showing Habitat
…
| Title |
National Map Showing Habitat Suitability for Tamarisk Invasion |
| Abstract |
The spread of invasive species is one of the most daunting environmental, economic, and human-health problems facing the United States and the World today. It is one of several grand challenge environmental problems being addressed by NASA's Science Mission Directorate through a national application partnership with the US Geological Survey. NASA and USGS are working together to develop a National Invasive Species Forecasting System (ISFS) for the management and control of invasive species on Department of Interior and adjacent lands. The system provides a framework for using USGS's early detection and monitoring protocols and predictive models to process MODIS, ETM+, ASTER and commercial remote sensing data, to create on-demand, regional-scale assessments of invasive species likely habitats. Recent work on the Invasive Species Forecasting System (ISFS) project has shown the importance of remotely-sensed time-series data in geostatistical models for mapping the distribution of Tamarisk and other invasive plant species. This video shows the habitat suitability for a Tamarisk invasion in the continental United States. Red indicates areas that are highly suitable and yellow indicates areas which are less suitable. Texas, New Mexico, and Nevada are the most highly suitable states. Utah and Arizona have the next greatest risk. California, Arizona, Montana, Colorado, Oregon, Ohio, Wyoming, and Florida also have a significant risk. |
| Completed |
2005-10-18 |
|
National Map Showing Habitat
…
| Title |
National Map Showing Habitat Suitability for Tamarisk Invasion |
| Abstract |
The spread of invasive species is one of the most daunting environmental, economic, and human-health problems facing the United States and the World today. It is one of several grand challenge environmental problems being addressed by NASA's Science Mission Directorate through a national application partnership with the US Geological Survey. NASA and USGS are working together to develop a National Invasive Species Forecasting System (ISFS) for the management and control of invasive species on Department of Interior and adjacent lands. The system provides a framework for using USGS's early detection and monitoring protocols and predictive models to process MODIS, ETM+, ASTER and commercial remote sensing data, to create on-demand, regional-scale assessments of invasive species likely habitats. Recent work on the Invasive Species Forecasting System (ISFS) project has shown the importance of remotely-sensed time-series data in geostatistical models for mapping the distribution of Tamarisk and other invasive plant species. This video shows the habitat suitability for a Tamarisk invasion in the continental United States. Red indicates areas that are highly suitable and yellow indicates areas which are less suitable. Texas, New Mexico, and Nevada are the most highly suitable states. Utah and Arizona have the next greatest risk. California, Arizona, Montana, Colorado, Oregon, Ohio, Wyoming, and Florida also have a significant risk. |
| Completed |
2005-10-18 |
|
National Map Showing Habitat
…
| Title |
National Map Showing Habitat Suitability for Tamarisk Invasion |
| Abstract |
The spread of invasive species is one of the most daunting environmental, economic, and human-health problems facing the United States and the World today. It is one of several grand challenge environmental problems being addressed by NASA's Science Mission Directorate through a national application partnership with the US Geological Survey. NASA and USGS are working together to develop a National Invasive Species Forecasting System (ISFS) for the management and control of invasive species on Department of Interior and adjacent lands. The system provides a framework for using USGS's early detection and monitoring protocols and predictive models to process MODIS, ETM+, ASTER and commercial remote sensing data, to create on-demand, regional-scale assessments of invasive species likely habitats. Recent work on the Invasive Species Forecasting System (ISFS) project has shown the importance of remotely-sensed time-series data in geostatistical models for mapping the distribution of Tamarisk and other invasive plant species. This video shows the habitat suitability for a Tamarisk invasion in the continental United States. Red indicates areas that are highly suitable and yellow indicates areas which are less suitable. Texas, New Mexico, and Nevada are the most highly suitable states. Utah and Arizona have the next greatest risk. California, Arizona, Montana, Colorado, Oregon, Ohio, Wyoming, and Florida also have a significant risk. |
| Completed |
2005-10-18 |
|
Hurricane Dennis
| Title |
Hurricane Dennis |
| Abstract |
The formation of Hurricane Dennis on July 5 made that the earliest date on record that four named storms formed in the Atlantic basin. Dennis proved to be a powerful and destructive storm in the Caribbean Sea and the Gulf of Mexico. It crossed over Cuba on July 8 and 9, leaving at least 10 dead, and caused additional deaths in Haiti. After re-emerging over open water, Dennis re-strengthened into a dangerous Category 4 hurricane with top wind speeds of 233 kilometers per hour (145 mph). The storm passed within 90 kilometers (55 miles) of Pensacola, Florida, and hit land about 80 kilometers (50 miles) east of where Hurricane Ivan struck in September, 2004. A large storm surge of more than 10 feet was created in certain areas, and many homes and businesses in low-lying areas were flooded. |
| Completed |
2005-07-11 |
|
Hurricane Dennis
| Title |
Hurricane Dennis |
| Abstract |
The formation of Hurricane Dennis on July 5 made that the earliest date on record that four named storms formed in the Atlantic basin. Dennis proved to be a powerful and destructive storm in the Caribbean Sea and the Gulf of Mexico. It crossed over Cuba on July 8 and 9, leaving at least 10 dead, and caused additional deaths in Haiti. After re-emerging over open water, Dennis re-strengthened into a dangerous Category 4 hurricane with top wind speeds of 233 kilometers per hour (145 mph). The storm passed within 90 kilometers (55 miles) of Pensacola, Florida, and hit land about 80 kilometers (50 miles) east of where Hurricane Ivan struck in September, 2004. A large storm surge of more than 10 feet was created in certain areas, and many homes and businesses in low-lying areas were flooded. |
| Completed |
2005-07-11 |
|
Hurricane Dennis
| Title |
Hurricane Dennis |
| Abstract |
The formation of Hurricane Dennis on July 5 made that the earliest date on record that four named storms formed in the Atlantic basin. Dennis proved to be a powerful and destructive storm in the Caribbean Sea and the Gulf of Mexico. It crossed over Cuba on July 8 and 9, leaving at least 10 dead, and caused additional deaths in Haiti. After re-emerging over open water, Dennis re-strengthened into a dangerous Category 4 hurricane with top wind speeds of 233 kilometers per hour (145 mph). The storm passed within 90 kilometers (55 miles) of Pensacola, Florida, and hit land about 80 kilometers (50 miles) east of where Hurricane Ivan struck in September, 2004. A large storm surge of more than 10 feet was created in certain areas, and many homes and businesses in low-lying areas were flooded. |
| Completed |
2005-07-11 |
|
Hurricane Dennis
| Title |
Hurricane Dennis |
| Abstract |
The formation of Hurricane Dennis on July 5 made that the earliest date on record that four named storms formed in the Atlantic basin. Dennis proved to be a powerful and destructive storm in the Caribbean Sea and the Gulf of Mexico. It crossed over Cuba on July 8 and 9, leaving at least 10 dead, and caused additional deaths in Haiti. After re-emerging over open water, Dennis re-strengthened into a dangerous Category 4 hurricane with top wind speeds of 233 kilometers per hour (145 mph). The storm passed within 90 kilometers (55 miles) of Pensacola, Florida, and hit land about 80 kilometers (50 miles) east of where Hurricane Ivan struck in September, 2004. A large storm surge of more than 10 feet was created in certain areas, and many homes and businesses in low-lying areas were flooded. |
| Completed |
2005-07-11 |
|
Hurricane Dennis
| Title |
Hurricane Dennis |
| Abstract |
The formation of Hurricane Dennis on July 5 made that the earliest date on record that four named storms formed in the Atlantic basin. Dennis proved to be a powerful and destructive storm in the Caribbean Sea and the Gulf of Mexico. It crossed over Cuba on July 8 and 9, leaving at least 10 dead, and caused additional deaths in Haiti. After re-emerging over open water, Dennis re-strengthened into a dangerous Category 4 hurricane with top wind speeds of 233 kilometers per hour (145 mph). The storm passed within 90 kilometers (55 miles) of Pensacola, Florida, and hit land about 80 kilometers (50 miles) east of where Hurricane Ivan struck in September, 2004. A large storm surge of more than 10 feet was created in certain areas, and many homes and businesses in low-lying areas were flooded. |
| Completed |
2005-07-11 |
|
Florida SeaWiFS False Color
…
| Title |
Florida SeaWiFS False Color Stills |
| Completed |
1998-09-09 |
|
African Dust Leads to Large
…
| Title |
African Dust Leads to Large Toxic Algae Blooms off the Coast of Florida |
| Abstract |
Large toxic algae blooms can be seen off the coast of Florida. |
| Completed |
2001-08-27 |
|
African Dust Leads to Large
…
| Title |
African Dust Leads to Large Toxic Algae Blooms off the Coast of Florida |
| Abstract |
Large toxic algae blooms can be seen off the coast of Florida. |
| Completed |
2001-08-27 |
|
TRMM Tropical Microwave Imag
…
| Title |
TRMM Tropical Microwave Imager (TMI) sees the power of Hurricane Jeanne On September 26, 2004 |
| Abstract |
NASA's TRMM spacecraft is used by meteorologists to understand It looks underneath of the storm's clouds to reveal the underlying rain structure. Blue represents areas with at least 0.25 inches of rain per hour. Green shows at least 0.5 inches of rain per hour. Yellow is at least 1.0 inches of rain and red is at least 2.0 inches of rain per hour. |
| Completed |
2004-09-27 |
|
TRMM Tropical Microwave Imag
…
| Title |
TRMM Tropical Microwave Imager (TMI) sees the power of Hurricane Jeanne On September 26, 2004 |
| Abstract |
NASA's TRMM spacecraft is used by meteorologists to understand It looks underneath of the storm's clouds to reveal the underlying rain structure. Blue represents areas with at least 0.25 inches of rain per hour. Green shows at least 0.5 inches of rain per hour. Yellow is at least 1.0 inches of rain and red is at least 2.0 inches of rain per hour. |
| Completed |
2004-09-27 |
|
TRMM Tropical Microwave Imag
…
| Title |
TRMM Tropical Microwave Imager (TMI) sees the power of Hurricane Jeanne On September 26, 2004 |
| Abstract |
NASA's TRMM spacecraft is used by meteorologists to understand It looks underneath of the storm's clouds to reveal the underlying rain structure. Blue represents areas with at least 0.25 inches of rain per hour. Green shows at least 0.5 inches of rain per hour. Yellow is at least 1.0 inches of rain and red is at least 2.0 inches of rain per hour. |
| Completed |
2004-09-27 |
|
TRMM Tropical Microwave Imag
…
| Title |
TRMM Tropical Microwave Imager (TMI) sees the power of Hurricane Jeanne On September 26, 2004 |
| Abstract |
NASA's TRMM spacecraft is used by meteorologists to understand It looks underneath of the storm's clouds to reveal the underlying rain structure. Blue represents areas with at least 0.25 inches of rain per hour. Green shows at least 0.5 inches of rain per hour. Yellow is at least 1.0 inches of rain and red is at least 2.0 inches of rain per hour. |
| Completed |
2004-09-27 |
|
TRMM Tropical Microwave Imag
…
| Title |
TRMM Tropical Microwave Imager (TMI) sees the power of Hurricane Jeanne On September 26, 2004 |
| Abstract |
NASA's TRMM spacecraft is used by meteorologists to understand It looks underneath of the storm's clouds to reveal the underlying rain structure. Blue represents areas with at least 0.25 inches of rain per hour. Green shows at least 0.5 inches of rain per hour. Yellow is at least 1.0 inches of rain and red is at least 2.0 inches of rain per hour. |
| Completed |
2004-09-27 |
|
TRMM Tropical Microwave Imag
…
| Title |
TRMM Tropical Microwave Imager (TMI) sees the power of Hurricane Jeanne On September 26, 2004 |
| Abstract |
NASA's TRMM spacecraft is used by meteorologists to understand It looks underneath of the storm's clouds to reveal the underlying rain structure. Blue represents areas with at least 0.25 inches of rain per hour. Green shows at least 0.5 inches of rain per hour. Yellow is at least 1.0 inches of rain and red is at least 2.0 inches of rain per hour. |
| Completed |
2004-09-27 |
|
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