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Tropical Rainfall Measuring Mission (TRMM) of Goddard Space Flight Center (GSFC) and Gulf of Mexico from 2005
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TRMM Microwave Brightness Te
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| Title |
TRMM Microwave Brightness Temperature Swath during Hurricane Katrina: Vertical Polarization |
| Abstract |
The TMI instrument on the TRMM satellite measures microwaves emitted from the Earth's land and water. By comparing emission from different microwave frequencies, the characteristics of ice and water in the atmosphere can be determined. For example, 85 GHz microwaves are scattered by ice crystals in tropical cyclones, making cyclone rain bands appear 'colder' than the surrounding areas. By comparing 85 GHz temperatures in different polarizations with other frequency band measurements, accurate measurements of rainfall in the atmosphere can be made. This animation shows four days of TMI 85 GHz measurements, one orbit at a time. Hurricane Katrina was in the Gulf of Mexico at the time and clearly shows up in the measurements. |
| Completed |
2005-09-12 |
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TRMM Microwave Brightness Te
…
| Title |
TRMM Microwave Brightness Temperature Swath during Hurricane Katrina: Horizontal Polarization |
| Abstract |
The TMI instrument on the TRMM satellite measures microwaves emitted from the Earth's land and water. By comparing emission from different microwave frequencies, the characteristics of ice and water in the atmosphere can be determined. For example, 85 GHz microwaves are scattered by ice crystals in tropical cyclones, making cyclone rain bands appear 'colder' than the surrounding areas. By comparing 85 GHz temperatures in different polarizations with other frequency band measurements, accurate measurements of rainfall in the atmosphere can be made. This animation shows four days of TMI 85 GHz measurements, one orbit at a time. Hurricane Katrina was in the Gulf of Mexico at the time and clearly shows up in the measurements. |
| Completed |
2005-09-12 |
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TRMM Microwave Measurements
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| Title |
TRMM Microwave Measurements during Hurricane Katrina: Vertical Polarization |
| Abstract |
The TMI instrument on the TRMM satellite measures microwaves emitted from the Earth's land and water. By comparing emission from different microwave frequencies, the characteristics of ice and water in the atmosphere can be determined. For example, 85 GHz microwaves are scattered by ice crystals in tropical cyclones, making cyclone rain bands appear 'colder' than the surrounding areas. By comparing 85 GHz temperatures in different polarizations with other frequency band measurements, accurate measurements of rainfall in the atmosphere can be made. This animation shows eight days of global TMI 85 GHz measurements in the Gulf of Mexico during Hurricane Katrina. The hurricane Katrina rainbands clearly show up in these images. |
| Completed |
2005-09-13 |
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TRMM Satellite and TMI Swath
| Title |
TRMM Satellite and TMI Swath |
| Abstract |
The Tropical Rainfall Measuring Mission (TRMM) satellite was launched on November 27, 1997, as a joint mission of NASA and the Japan Aerospace Exploration Agency, JAXA. TRMM has five Earth-observing instruments on board and circles the Earth every 92 minutes in an equatorial orbit between 35 degrees north and south latitude so that those instruments can measure precipitation in the tropics. One of the instuments, TMI, observes five frequencies of microwave emissions in a 780-kilometer wide swath along the orbit in order to measure the amount of rain and ice in the atmosphere. This animation shows the TRMM satellite orbiting for one day, August 27, 2005, showing a set of TRMM measurements at a frequency of 85.5 GHz. In this frequency band, atmospheric ice crystals scatter microwaves and so areas with ice crystals appear colder than areas with no ice. Both Hurricane Katrina, just to the west of Florida in the Gulf of Mexico, and Typhoon Talim, in the westerm Pacific between Japan and New Guinea, show up as bright swirling patterns. This measurement is just one of the TMI measurements that go into calculating the total instantaneous rainfall in the tropics. |
| Completed |
2006-04-04 |
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Hurricane Dennis
| Title |
Hurricane Dennis |
| Description |
On the heals of the devastating 2004 hurricane season, the 2005 season is so far off to a fast and furious start with the emergence of major hurricane early in the season. By July 8, 2005, Hurricane Dennis was an intense Category 4 hurricane on the Saffir-Simpson scale and was passing directly over Cuba, also hit by Hurricane Charley in 2004. The storm is expected to emerge into the Gulf of Mexico as a major hurricane, posing a powerful threat to the Gulf Coast of the United States. This image shows Dennis as it was strengthening from a tropical storm into a hurricane on July 6, 2005. The Tropical Rainfall Measuring Mission (TRMM) satellite captured this image at 5:31 p.m. EDT (21:31 UTC). The image reveals rain rates associated with Dennis, with heavy rains shown in red. The rain field surrounding the storm was becoming symmetrical, wrapping around the center of circulation. TRMM also reveals an area of intense rainfall (dark red area) very near the center of Dennis that is likely associated with a convective burst, an intense section of the storm that may be a precursor to intensification. Hurricanes act as large heat engines. The fuel for these engines comes from the condensation of water vapor in the atmosphere. As water vapor condenses into the tiny cloud droplets that lead to precipitation (shown here as rainfall), heat is released. This heat, known as latent heat, is what drives the circulation of the storm. In general, the more heat that is being released, the more intense the storm will be. This heating is most effective in driving the storm if it occurs near the center of the storm as is the case shown here with Dennis. Less than an hour after this image was taken, Dennis was re-classified as a hurricane with maximum sustained winds measured at 80 miles per hour by a hurricane hunter aircraft. Launched in November of 1997 to measure rainfall over the global tropics, TRMM has proven itself to be a valuable platform for observing tropical cyclones. Rain rates in the center part of the swath are from the TRMM Precipitation Radar (PR), the only radar that can measure precipitation from space. Rain rates in the outer swath are from the TRMM Microwave Imager (TMI). The rain rates are overlaid on infrared (IR) data from the TRMM Visible Infrared Scanner (VIRS).TRMM [ http://trmm.gsfc.nasa.gov/ ] is a joint mission between NASA and the Japanese space agency, JAXA. NASA image produced by Hal Pierce (SSAI/NASA GSFC) and caption by Steve Lang (SSAI/NASA GSFC). |
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Hurricane Dennis
| Title |
Hurricane Dennis |
| Description |
Hurricane Dennis hit Cuba on the evening of July 8, 2005 as a powerful Category 4 hurricane on the Saffir-Simpson scale with sustained winds of 125 knots (144 mph). The storm was responsible for 16 fatalities in Cuba. With its circulation disrupted by the island, Dennis emerged off of Cuba and moved into the Gulf of Mexico in the early morning hours of the 9th as a much weaker storm. At one point, Dennis was reduced to a Category 1 storm with sustained winds down to 80 knots (92 mph), as reported by the National Hurricane Center. This image shows a rejuvinated Hurricane Dennis at 21:59 UTC (5:59 p.m. EDT) on July 9, 2005. At the time, the storm's winds were back up to 90 knots (104 mph). Rain intensity, as measured by sensors on the Tropical Rainfall Measuring Mission (TRMM) satellite, is indicated in the color overlay. The eye is well formed and contains intense 2-inch-per-hour rain rates (dark red area) in the northeastern part of the eyewall, an indication that strong heating is occurring in the core and is reinvigorating the system. The Tropical Rainfall Measuring Mission (TRMM) satellite has been monitoring the progress of Dennis since it formed in the eastern Caribbean. Rain rates in the center of the swath are from the TRMM Precipitation Radar (PR), the only radar measuring precipitation from space. Rain rates in the outer swath are from the TRMM Microwave Imager (TMI). The rain rates are overlaid on infrared (IR) data from the TRMM Visible Infrared Scanner (VIRS). Launched in 1997 to measure rainfall over the Tropics, TRMM continues to prove itself as an excellent platform for observing tropical cyclones. TRMM is a joint mission between NASA and the Japanese space agency, JAXA. Images produced by Hal Pierce (SSAI/NASA GSFC) and caption by Steve Lang (SSAI/NASA GSFC). |
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Hurricane Dennis
| Title |
Hurricane Dennis |
| Description |
After striking Cuba on July 8, 2005, Hurricane Dennis had lost strength from passing over land. However in the Gulf of Mexico, it recovered and strengthened into a powerful Category 4 storm once again during the early morning hours of July 9th, with maximum sustained winds back up to 125 knots (144 mph). Fortunately for residents in the Florida panhandle, Dennis weakened just before making landfall due to the storm's passage over slightly cooler water. Dennis made landfall around 3:30 p.m. CDT on July 10th just east of Pensacola, Florida, as a Category 3 storm with maximum sustained winds of 120 mph. This image shows Hurricane Dennis at 22:41 UTC (5:31 p.m. CDT) on July 10th, just after the storm had made landfall. The eye is already open to the south as hurricanes tend to quickly weaken over land, and almost all of the rain is occurring north and east of the center (green and blue areas). Rain rates in the center of the swath are from the TRMM Precipitation Radar (PR), the only radar measuring precipitation from space. Rain rates in the outer swath are from the TRMM Microwave Imager (TMI). The rain rates are overlaid on infrared (IR) data from the TRMM Visible Infrared Scanner (VIRS). This image shows a rejuvenated Dennis with maximum sustained winds back up to 90 knots (104 mph). The eye is well formed and contains intense 2-inch-per-hour rain rates (dark red area) in the northeastern part of the eyewall, an indication that strong heating is occurring in the core and is reinvigorating the system. The Tropical Rainfall Measuring Mission (TRMM) satellite has been monitoring the progress of Dennis since it formed in the eastern Caribbean. Launched in 1997 to measure rainfall over the Tropics, TRMM continues to prove itself as an excellent platform for observing tropical cyclones. TRMM is a joint mission between NASA and the Japanese space agency JAXA. Images produced by Hal Pierce (SSAI/NASA GSFC) and caption by Steve Lang (SSAI/NASA GSFC). |
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Hurricane Katrina
| Title |
Hurricane Katrina |
| Description |
The 2005 hurricane season will long be remembered both for the record-breaking number of early storms and for the emergence of a powerful Category 5 hurricane in the central Gulf of Mexico—Hurricane Katrina. NASA's Tropical Rainfall Measuring Mission satellite (TRMM) captured this three-dimensional view of the storm early on August 28, 2005, as Katrina was strengthening into a Category 4 storm in the Central Gulf of Mexico. The image shows a cut-away view of the eye of the storm with cloud height on one side of the eye and rain rates on the other. At the time of the image, Katrina was still a Category 3 storm, with maximum sustained winds reported of 100 knots (115 mph). TRMM reveals that Katrina had a closed eye surrounded by concentric rings of heavy rain (red areas) that are associated with outer rain bands. The intense rain near the core of the storm—shown in the "flat" half of the image—indicates where heat, known as latent heat, is being released into the storm. This latent heat release is what drives the storm's circulation. The 3D perspective of Katrina shows the height of rain columns within the hurricane. Tall rain columns provide a clue that the storm is strengthening. As water vapor rises, it cools and condenses into rain, releasing heat. It is this heat that feeds the storm. The higher water vapor rises before cooling, the more intense the storm tends to be. In this image, two isolated tall towers (in red) are visible: one in an outer rain band and the other in the northeastern part of the eyewall. The eyewall tower rises 16 kilometers above the ocean's surface and is associated with an area of intense rainfall. Towers this tall near the core are often an indication of intensification, as was true with Katrina, which became a Category 4 storm soon after this image was taken. Launched in November 1997 to measure rainfall over the global tropics, TRMM has shown itself to be a valuable instrument for observing tropical cyclones. In this image, rain rates in the central portion of the swath are from the TRMM Precipitation Radar (PR), the only radar capable of measuring precipitation from space. The PR is able to provide fine resolution rainfall data and details on the storm's vertical structure. Rain rates in the outer swath are from the TRMM Microwave Imager (TMI). The rain rates are overlaid on infrared (IR) data from the TRMM Visible Infrared Scanner (VIRS). To see more TRMM images of Katrina, please visit NASA's TRMM [ http://trmm.gsfc.nasa.gov/ ] web site. TRMM is a joint mission between NASA and the Japanese space agency JAXA. |
|
Hurricane Katrina
| Title |
Hurricane Katrina |
| Description |
The 2005 hurricane season will long be remembered both for the record-breaking number of early storms and for the emergence of a powerful Category 5 hurricane in the central Gulf of Mexico—Hurricane Katrina. NASA's Tropical Rainfall Measuring Mission satellite (TRMM) captured this three-dimensional view of the storm early on August 28, 2005, as Katrina was strengthening into a Category 4 storm in the Central Gulf of Mexico. The image shows a cut-away view of the eye of the storm with cloud height on one side of the eye and rain rates on the other. At the time of the image, Katrina was still a Category 3 storm, with maximum sustained winds reported of 100 knots (115 mph). TRMM reveals that Katrina had a closed eye surrounded by concentric rings of heavy rain (red areas) that are associated with outer rain bands. The intense rain near the core of the storm—shown in the "flat" half of the image—indicates where heat, known as latent heat, is being released into the storm. This latent heat release is what drives the storm's circulation. The 3D perspective of Katrina shows the height of rain columns within the hurricane. Tall rain columns provide a clue that the storm is strengthening. As water vapor rises, it cools and condenses into rain, releasing heat. It is this heat that feeds the storm. The higher water vapor rises before cooling, the more intense the storm tends to be. In this image, two isolated tall towers (in red) are visible: one in an outer rain band and the other in the northeastern part of the eyewall. The eyewall tower rises 16 kilometers above the ocean's surface and is associated with an area of intense rainfall. Towers this tall near the core are often an indication of intensification, as was true with Katrina, which became a Category 4 storm soon after this image was taken. Launched in November 1997 to measure rainfall over the global tropics, TRMM has shown itself to be a valuable instrument for observing tropical cyclones. In this image, rain rates in the central portion of the swath are from the TRMM Precipitation Radar (PR), the only radar capable of measuring precipitation from space. The PR is able to provide fine resolution rainfall data and details on the storm's vertical structure. Rain rates in the outer swath are from the TRMM Microwave Imager (TMI). The rain rates are overlaid on infrared (IR) data from the TRMM Visible Infrared Scanner (VIRS). To see more TRMM images of Katrina, please visit NASA's TRMM [ http://trmm.gsfc.nasa.gov/ ] web site. TRMM is a joint mission between NASA and the Japanese space agency JAXA. |
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Hurricane Rita
| Title |
Hurricane Rita |
| Description |
The onslaught from the 2005 hurricane season continued with the arrival of Hurricane Rita, the second Category 5 storm to threaten the Gulf of Mexico in less than a month. As it was passing south of the Florida Keys on September 20, 2005, Hurricane Rita was in the process of slowly intensifying from a Category 1 storm into a Category 2 storm. However, upon entering the Gulf of Mexico, Rita tapped into a deep layer of very warm water located in the southeast part of the Gulf associated with the Loop Current. This allowed Rita to undergo a process known as rapid deepening, which transformed it into a powerful Category 5 hurricane with the 3rd lowest air pressure ever recorded in an Atlantic Basin storm. Fortunately, as Rita moved across the Gulf away from the loop current, it slowly began to weaken. The Tropical Rainfall Measuring Mission (TRMM) satellite observed Rita at 13:45 UTC (9:45 am EDT) on September 23, 2005 as the hurricane was passing south of the central Louisiana coast. The center of the storm lies within the TRMM Microwave Imager (TMI) swath. Areas of very heavy rain (dark red areas) associated with an outer rainband are approaching the the Louisiana coast. The eyewall is not as symmetrical as in earlier observations, one sign of a weakening storm. Rita, however, was still strong with sustained winds of 220 kilometers per hour (140 miles per hour) when this image was taken. The TRMM satellite is one of many being used to monitor hurricanes and typhoons. Launched in November of 1997 to measure rainfall over the tropics, TRMM has proven to be a valuable platform for observing tropical cyclones and can provide unique images and information on these storms. TRMM is a joint mission between NASA and the Japanese space agency JAXA. Images produced by Hal Pierce (SSAI/NASA GSFC) and captioned by Steve Lang (SSAI/NASA GSFC). |
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Hurricane Rita
| Title |
Hurricane Rita |
| Description |
After the immense devastation brought by Hurricane Katrina, all eyes were on Hurricane Rita as it passed over the Florida Keys and the Gulf of Mexico. Rita formed from a tropical disturbance east of the Turks and Caicos Islands into a depression (TD #18) on September 17, 2005. The system moved west through the Caicos and strengthened into a tropical storm on the 18th before entering into the southern Bahamas. This image shows the horizontal distribution of rain intensity within Rita measured by the Tropical Rainfall Measuring Mission's (TRMM) sensors. Rain rates in the center part of the swath are from the TRMM Precipitation Radar (PR), the only radar capable of measuring precipitation from space. The PR can provide fine-resolution rainfall data and details on the vertical structure of the storm. Rain rates in the outer swath are from the TRMM Microwave Imager (TMI). The rain rates are overlaid on infrared (IR) data from the TRMM Visible Infrared Scanner (VIRS). The image was taken at 08:28 UTC (4:28 a.m. EDT) on September 20 as Rita was passing through the Florida Straits. Although the center of Rita does not fall within the PR swath, it is obvious from TRMM that Rita is becoming better organized. A ragged eye is present, surrounded by areas of moderate rain (green areas) with good banding in the outer rainbands, all signs that the storm's circulation is improving. Rita was still a tropical storm at the time of this image, with sustained winds of 110 kilometers per hour (70 miles per hour). By early afternoon the same day, Rita would become a Category 2 hurricane as it passed south of the Florida Keys and headed for the Gulf of Mexico. The TRMM satellite is one of a number of satellites being used to monitor Hurricane Rita and storms like it. Launched in November of 1997 to measure rainfall over the tropics, TRMM has proven itself to be a valuable platform for observing tropical cyclones, which include hurricanes and typhoons. TRMM is a joint mission between NASA and the Japanese space agency JAXA. Images produced by Hal Pierce (SSAI/NASA GSFC) and caption by Steve Lang (SSAI/NASA GSFC). |
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Hurricane Wilma
| Title |
Hurricane Wilma |
| Description |
After setting the all-time record for the lowest recorded pressure in the Atlantic basin as a powerful Category 5 hurricane in the western Caribbean, Hurricane Wilma weakened to a still-powerful Category 4 storm. On October 21, 2005, Wilma slowly crossed over Cozumel as a strong Category 4 hurricane with sustained winds reported at up to 230 kilometers per hour (144 miles per hour) by the National Hurricane Center (NHC). The center of Wilma then drifted over the far northeastern tip of the Yucatan Peninsula delivering torrential rains and strong winds. Before being caught up in the westerlies, Wilma stalled out over the Yucatan, resulting in a sustained period of heavy rain and flooding. The rainfall was observed by the Tropical Rainfall Measuring Mission (TRMM) satellite. The TRMM-based, near-real time Multi-satellite Precipitation Analysis (MPA) at the NASA Goddard Space Flight Center provides estimates of rainfall over the global tropics. MPA rainfall totals due solely to Wilma are shown for October 17-25, 2005, with storm symbols marking the storm track. Rainfall totals on the order of 300 to 400 millimeters (12 to 16 inches: darker red areas) are located over the northeastern part of the Yucatan Peninsula. After drifting over the Yucatan and weakening to a Category 2 storm, Wilma was picked up by a mid-latitude weather system known as a "trough." The storm accelerated off to the northeast across the southeastern Gulf of Mexico toward Florida, where it made landfall on the morning of October 24 just south of Marco Island. Wilma raced across southern Florida with winds in excess of 160 km/hr (100 mph) in just 6 hours. This quick transit kept rainfall totals down. MPA rainfall amounts over Florida are generally 150 mm (6 inches or less: green areas). TRMM is a joint mission between NASA and the Japanese space agency, JAXA. Images produced by Hal Pierce (SSAI/NASA GSFC) and caption by Steve Lang (SSAI/NASA GSFC). |
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Hurricane Wilma
| Title |
Hurricane Wilma |
| Description |
When Wilma became a named tropical storm on October 17, 2005, it tied a record dating back to 1933 for the most named storms in a season. When Wilma became a hurricane on October 18, it tied the record dating back to 1969 for the most hurricanes in a season. However, when Wilma shot from a tropical storm to a Category 5 hurricane on the morning of October 19, it broke the all-time record for the lowest pressure ever measured in the Atlantic Basin. A hurricane's central pressure is an indicator of its intensity—the lower the pressure, the more intense the storm. The Tropical Rainfall Measuring Mission (TRMM) satellite observed Wilma approaching the Yucatan Peninsula at 00:55 UTC on October 21, 2005 (8:55 pm EDT October 20, 2005). This 3-D perspective of Wilma shows a cut-away view of the eye, with cloud height on the top right side of the storm and rain rates in the lower left side of the storm. TRMM measures the cloud height with radar, which detects the location of precipitation (and therefore clouds). In this image, clouds tower over 10 kilometers above the ocean around the eye. The deep ring of red at the base of the eye shows that heavy rain is falling in the same area. TRMM reveals that Wilma had a well-defined, closed inner eye of intense rain surrounded by larger concentric rings of more moderate rain. (The concentric rings are easier to see in the version of the image that does not include the 3-D cloud height overlay, available here.) The sharply curved features in the rain field surrounding the inner eye are the mark of well-developed, intense circulation. At the time of the image, Wilma was a Category 4 storm with maximum sustained winds reported at 240 kilometers per hour (150 miles per hour) by the National Hurricane Center. At its height, Wilma had sustained winds of 280 km/hr (175 mph). At the time these images were taken, Wilma was drifting very slowly to the northwest towards Cozumel, Mexico. The storm was expected to enter the Gulf of Mexico as a weaker hurricane before making landfall along the west coast of Florida. The TRMM satellite is one of many satellites monitoring hurricanes and typhoons. Launched in November of 1997 to measure rainfall over the Tropics, TRMM has a number of instruments that are valuable for observing tropical cyclones. In these images, rain rates in the central portion of the swath are from the TRMM Precipitation Radar (PR). Rain rates in the outer swath are from the TRMM Microwave Imager (TMI). The rain rates are overlaid on infrared (IR) data from the TRMM Visible Infrared Scanner (VIRS).TRMM [ http://trmm.gsfc.nasa.gov/ ] is a joint mission between NASA and the Japanese space agency JAXA. Images produced by Hal Pierce (SSAI/NASA GSFC) and caption by Steve Lang (SSAI/NASA GSFC). |
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Hurricane Wilma
| Title |
Hurricane Wilma |
| Description |
When Wilma became a named tropical storm on October 17, 2005, it tied a record dating back to 1933 for the most named storms in a season. When Wilma became a hurricane on October 18, it tied the record dating back to 1969 for the most hurricanes in a season. However, when Wilma shot from a tropical storm to a Category 5 hurricane on the morning of October 19, it broke the all-time record for the lowest pressure ever measured in the Atlantic Basin. A hurricane's central pressure is an indicator of its intensity—the lower the pressure, the more intense the storm. The Tropical Rainfall Measuring Mission (TRMM) satellite observed Wilma approaching the Yucatan Peninsula at 00:55 UTC on October 21, 2005 (8:55 pm EDT October 20, 2005). This 3-D perspective of Wilma shows a cut-away view of the eye, with cloud height on the top right side of the storm and rain rates in the lower left side of the storm. TRMM measures the cloud height with radar, which detects the location of precipitation (and therefore clouds). In this image, clouds tower over 10 kilometers above the ocean around the eye. The deep ring of red at the base of the eye shows that heavy rain is falling in the same area. TRMM reveals that Wilma had a well-defined, closed inner eye of intense rain surrounded by larger concentric rings of more moderate rain. (The concentric rings are easier to see in the version of the image that does not include the 3-D cloud height overlay, available here.) The sharply curved features in the rain field surrounding the inner eye are the mark of well-developed, intense circulation. At the time of the image, Wilma was a Category 4 storm with maximum sustained winds reported at 240 kilometers per hour (150 miles per hour) by the National Hurricane Center. At its height, Wilma had sustained winds of 280 km/hr (175 mph). At the time these images were taken, Wilma was drifting very slowly to the northwest towards Cozumel, Mexico. The storm was expected to enter the Gulf of Mexico as a weaker hurricane before making landfall along the west coast of Florida. The TRMM satellite is one of many satellites monitoring hurricanes and typhoons. Launched in November of 1997 to measure rainfall over the Tropics, TRMM has a number of instruments that are valuable for observing tropical cyclones. In these images, rain rates in the central portion of the swath are from the TRMM Precipitation Radar (PR). Rain rates in the outer swath are from the TRMM Microwave Imager (TMI). The rain rates are overlaid on infrared (IR) data from the TRMM Visible Infrared Scanner (VIRS).TRMM [ http://trmm.gsfc.nasa.gov/ ] is a joint mission between NASA and the Japanese space agency JAXA. Images produced by Hal Pierce (SSAI/NASA GSFC) and caption by Steve Lang (SSAI/NASA GSFC). |
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Hurricane Wilma: Natural Haz
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nasa, nasanaturalhazards
When Wilma became a named tr
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wilma_trmm_21oct05
| mediatype |
IMAGE |
| mediatype |
image |
| date |
2005-10-21 |
| creator |
NASA -- NASA Image Of The Day |
| identifier |
wilma_trmm_21oct05 |
|
Hurricane Rita: Natural Haza
…
nasa, nasanaturalhazards
After the immense devastatio
…
rita_trmm_20sep05
| mediatype |
IMAGE |
| mediatype |
image |
| date |
2005-09-20 |
| creator |
NASA -- NASA Image Of The Day |
| identifier |
rita_trmm_20sep05 |
|
Hurricane Rita: Natural Haza
…
nasa, nasanaturalhazards
After forming east of the Tu
…
rita_trmm_18-26sep05
| mediatype |
IMAGE |
| mediatype |
image |
| date |
2005-09-26 |
| creator |
NASA -- NASA Image Of The Day |
| identifier |
rita_trmm_18-26sep05 |
|
Hurricane Katrina: Natural H
…
nasa, nasanaturalhazards
* eoimages.gsfc.nasa.gov/ima
…
katrina_trmm_23-31aug05
| mediatype |
IMAGE |
| mediatype |
image |
| date |
2005-08-31 |
| creator |
NASA -- NASA Image Of The Day |
| identifier |
katrina_trmm_23-31aug05 |
|
Hurricane Wilma: Natural Haz
…
nasa, nasanaturalhazards
After setting the all-time r
…
wilma_trmm_2005298
| mediatype |
IMAGE |
| mediatype |
image |
| date |
2005-10-25 |
| creator |
NASA -- NASA Image Of The Day |
| identifier |
wilma_trmm_2005298 |
|
Hurricane Katrina: Natural H
…
nasa, nasanaturalhazards
* eoimages.gsfc.nasa.gov/ima
…
Katrina_TRM_2005240
| mediatype |
IMAGE |
| mediatype |
image |
| date |
2005-08-28 |
| creator |
NASA -- NASA Image Of The Day |
| identifier |
Katrina_TRM_2005240 |
|
Hurricane Rita: Natural Haza
…
nasa, nasanaturalhazards
The onslaught from the 2005
…
rita_trmm_23sep05
| mediatype |
IMAGE |
| mediatype |
image |
| date |
2005-09-23 |
| creator |
NASA -- NASA Image Of The Day |
| identifier |
rita_trmm_23sep05 |
|
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