Tuesday, September 05, 2017

NASA Sees Irma Strengthen to a Category 5 Hurricane | Atlantic Ocean


Image: On Sept. 4 at 17:24 UTC, NASA-NOAA's Suomi NPP satellite captured this view of Hurricane Irma as a Category 4 hurricane approaching the Leeward Islands. | Sept. 5, 2017: On Sept. 4 at (1:24 p.m. EDT) 17:24 UTC, NASA-NOAA's Suomi NPP satellite captured this view of Hurricane Irma as a Category 4 hurricane approaching the Leeward Islands. The VIIRS instrument on the Suomi NPP satellite flew over Hurricane Irma on Sept. 4 at 04:32 UTC (12:32 a.m. EDT) when it was a Category 3 hurricane. VIIRS infrared data revealed very cold, very high, powerful thunderstorms on Irma's western side. Cloud top temperatures in that area were near minus 117.7 degrees Fahrenheit or minus 83.5 degrees Celsius. Storms with cloud tops that cold have the capability to generate very heavy rainfall.

At 8 a.m. EDT (1200 UTC) on Sept. 5, many warnings and watches were in effect. A Hurricane Warning is in effect for Antigua, Barbuda, Anguilla, Montserrat, St. Kitts, and Nevis, Saba, St. Eustatius, and Sint Maarten, Saint Martin and Saint Barthelemy, British Virgin Islands, U.S. Virgin Islands and Puerto Rico, Vieques, and Culebra. A Hurricane Watch is in effect for Guadeloupe, Dominican Republic from Cabo Engano to the northern border with, Haiti. A Tropical Storm Warning is in effect for Guadeloupe and Dominica. A Tropical Storm Watch is in effect for Dominican Republic from south of Cabo Engao to Isla Saona.

At 8 a.m. EDT (1200 UTC), the National Hurricane Center said the distinct eye center of Hurricane Irma was located near 16.7 degrees north latitude and 57.7 degrees west longitude. That's about 270 miles (440 km) east of Antigua and about 280 miles (445 km) east-southeast of Barbuda.

Irma was moving toward the west near 14 mph (22 kph), and this general motion is expected to continue today, followed by a turn toward the west-northwest tonight. On the forecast track, the dangerous core of Irma will move near or over portions of the northern Leeward Islands tonight and early Wednesday, Sept. 6.

NHC noted that reports from NOAA and U.S. Air Force Hurricane Hunter aircraft indicate Irma continues to strengthen and maximum sustained winds have increased to near 175 mph (280 kph) with higher gusts. Irma is an extremely dangerous category 5 hurricane on the Saffir-Simpson Hurricane Wind Scale. Some fluctuations in intensity are likely during the next day or two, but Irma is forecast to remain a powerful category 4 or 5 hurricane during the next couple of days. The latest estimated minimum central pressure from aircraft data is 929 millibars.

The National Hurricane Center expects Irma to maintain Major hurricane status (Category 3 or greater) through the forecast period (Sunday, Sept. 10).

For forecast updates, and expected rainfall, winds and storm surge for Irma, visit: www.nhc.noaa.gov

Credit: NOAA/NASA Goddard MODIS Rapid Response Team
Release Date: September 5, 2017


#NASA #NOAA #Earth #Science #Space #Satellite #Hurricane #Irma #Caribbean #Sea #Atlantic #Ocean #Leeward #Islands #PuertoRico #Cuba #Florida #UnitedStates #Weather #Storm #Precipitation #SuomiNPP #VIIRS #Health #Safety #Alert #Warning #Goddard #GSFC #STEM #Education

GOES Satellite Imagery of Hurricane Irma | NOAA



Geostationary Operational Environmental Satellite system (GOES) Category 5 Hurricane Irma as seen by GOES-16 (left) and GOES-13 (right), captured on the morning of September 5, 2017. The animation on the left clearly shows the improved resolution and faster refresh rate of the GOES-16 Advanced Baseline Imager (ABI) over the current GOES imager. The rapid scanning rate of the ABI allows forecasters to monitor hurricanes in near-real time, improving track forecasts. The higher spatial resolution available from ABI provides greater accuracy of feature attributes, allowing for better characterization of small hurricane eyes, which also helps with intensity estimation and tracking. The GOES-16 ABI also has additional channels, allowing forecasters to view storms in more wavelengths, and helping in estimation of central pressure and maximum sustained winds to assess hurricane intensity. Get the latest info on Irma at http://www.nhc.noaa.gov/ 

Credit: Cooperative Institute for Meteorological Satellite Studies (CIMSS) 
Duration: 6 seconds 
Capture date: September 5, 2017 

#NASA #NOAA #Earth #Science #Space #Satellite #Hurricane #Irma #Caribbean #Sea #Atlantic #Ocean #Leeward #Islands #PuertoRico #Cuba #Florida #UnitedStates #Weather #Storm #Precipitation #GOES #GOES13 #GOES16 #Health #Safety #Alert #Warning #Goddard #GSFC #STEM #Education #HD #Video

Monday, September 04, 2017

Mysterious supernovae | Hubble


Like firecrackers lighting up the sky on New Year’s Eve, the majestic spiral arms of NGC 5559 are alight with new stars being born. NGC 5559 is a spiral galaxy, with spiral arms filled with gas and dust sweeping out around the bright galactic bulge. These arms are a rich environment for star formation, dotted with a festive array of colors including the newborn stars glowing blue as a result of their immensely high temperatures.

NGC 5559 was discovered by astronomer William Herschel in 1785 and lies approximately 240 million light-years away in the northern constellation of Boötes (the herdsman)

In 2001, a calcium-rich supernova called 2001co was observed in NGC 5559. Calcium-rich supernovae (Ca-rich SNe) are described as “fast-and-faint”, as they're less luminous than other types of supernovae and also evolve more rapidly, to reveal spectra dominated by strong calcium lines. 2001co occurred within the disc of NGC 5559 near star-forming regions, but Ca-rich SNe are often observed at large distances from the nearest galaxy, raising curious questions about their progenitors.

Credit: ESA/Hubble & NASA
Release Date: September 4, 2017


#NASA #Hubble #Astronomy #Science #Space #Galaxy #NGC5559 #Spiral #Supernova #2001co #Calcium #Bootes #Stars #Cosmos #Universe #Telescope #HST #ESA #Goddard #GSFC #STScI #STEM #Education

Night Light


This image, taken by ESO Photo Ambassador Petr Horálek, captures the moment that Yepun (UT4), one of the four 8.2-meter Unit Telescopes comprising ESO’s Very Large Telescope (VLT), shoots a laser beam up into the dark night sky over ESO’s Paranal Observatory in Chile.

The laser shown in this image acts as an artificial star, known as a Laser Guide Star, and it is used to help astronomers adjust for the blurring and distorting effects of the Earth’s atmosphere. When observing a patch of sky, astronomers set up a laser guide star nearby and measure the tiny fluctuations in its image. The VLT’s adaptive optics system can then use this reference to correct for the changes and distortions in the intervening atmosphere and produce the sharpest images possible in the main observations.

Looming over Yepun is the Large Magellanic Cloud (LMC), a barred spiral galaxy that orbits the Milky Way. A faint white glow marks the location of older stellar populations within the LMC, while the iridescent hues of magenta and blue mark young stellar nurseries.

The LMC, as well as its smaller namesake, the Small Magellanic Cloud (SMC), have been studied many times by ESO telescopes over the years. Its many cosmic delights, including nebulae and star clusters, can be seen in detail due to their proximity, and provide amateur and professional astronomers alike with breathtaking targets for observation.

European Southern Observatory (ESO)
http://www.eso.org

Credit: Petr Horálek/ESO
Petr's website: http://www.astronom.cz/horalek/
Release Date: September 4, 2017


#ESO #Astronomy #Science #Space #Stars #Star #MilkyWay #Galaxy #MagellanicCloud #LMC #Lasers #LaserGuide #Optics #Telescope #VLT #Paranal #Observatory #Chile #Atacama #SouthAmerica #Europe #Astrophotography #Photography #STEM #Education

Saturn's Rings from the Inside Out | NASA Cassini Mission


via GIPHY

What do Saturn's rings look like from Saturn? Images from the robotic spacecraft Cassini are providing humanity with this unprecedented vantage point as it nears the completion of its mission. Previous to Cassini's Grand Finale orbits, all images of Saturn's majestic ring system were taken from outside of the rings looking in. Pictured in the inset is the remarkable video, while the spacecraft's positions are depicted in the surrounding animation. Details of the complex rings are evident as the short time-lapse sequence begins, while the paper-thin thickness of the rings becomes apparent near the video's end. The featured images were taken on August 20. Cassini has only a few more orbits around Saturn left before it is directed to dive into the giant planet on September 15.

The Cassini mission is a cooperative project of NASA, ESA (the European Space Agency) and the Italian Space Agency. The Jet Propulsion Laboratory, a division of Caltech in Pasadena, manages the mission for NASA's Science Mission Directorate, Washington. The Cassini orbiter and its two onboard cameras were designed, developed and assembled at JPL. The imaging operations center is based at the Space Science Institute in Boulder, Colorado.

For more information about the Cassini-Huygens mission visit https://saturn.jpl.nasa.gov and https://www.nasa.gov/cassini. The Cassini imaging team homepage is at https://ciclops.org.

Animation/GIF Credit: NASA, JPL-Caltech, Space Science Institute
Capture Date: August 20, 2017
Release Date: September 4, 2017


#NASA #Astronomy #Science #Space #Saturn #Planet #Rings #SolarSystem #Exploration #Cassini #Spacecraft #JPL #Caltech #Pasadena #California #UnitedStates #ESA #ASI #STEM #Education #Animation #GIF #APoD

Sunday, September 03, 2017

Voyager 40th Anniversary Grand Tour Poster | NASA JPL


Launched in 1977 on a tour of the outer planets of the Solar System, Voyager 1 and 2 have become the longest operating and most distant spacecraft from Earth. Nearly 16 light-hours from the Sun, Voyager 2 has reached the edge of the heliosphere, the realm defined by the influence of the solar wind and the Sun's magnetic field. Now humanity's first ambassador to the Milky Way, Voyager 1 is over 19 light-hours away, beyond the heliosphere in interstellar space. Celebrate the Voyagers' 40 year journey toward the stars with NASA on September 5.

Poster Illustration Credit: NASA, JPL-Caltech, Voyager
Release Date: September 2, 2017


#NASA #Astronomy #Science #Space #Voyager #Voyager1 #Jupiter #Saturn #Voyager2 #Spacecraft #SolarSystem #Interstellar #MilkyWay #Exploration #History #JPL #Pasadena #California #UnitedStates #STEM #Education #Poster #Art

Voyager 40th Anniversary "Disco" Poster | NASA JPL


Launched in 1977 on a tour of the outer planets of the Solar System, Voyager 1 and 2 have become the longest operating and most distant spacecraft from Earth. Nearly 16 light-hours from the Sun, Voyager 2 has reached the edge of the heliosphere, the realm defined by the influence of the solar wind and the Sun's magnetic field. Now humanity's first ambassador to the Milky Way, Voyager 1 is over 19 light-hours away, beyond the heliosphere in interstellar space. Celebrate the Voyagers' 40 year journey toward the stars with NASA on September 5.

Poster Illustration Credit: NASA, JPL-Caltech, Voyager
Release Date: September 2, 2017


#NASA #Astronomy #Science #Space #Voyager #Voyager1 #Jupiter #Saturn #Voyager2 #Spacecraft #SolarSystem #Interstellar #MilkyWay #Exploration #History #JPL #Pasadena #California #UnitedStates #STEM #Education #Poster #Art

Voyager 40th Anniversary Grand Tour Poster | NASA JPL


Launched in 1977 on a tour of the outer planets of the Solar System, Voyager 1 and 2 have become the longest operating and most distant spacecraft from Earth. Nearly 16 light-hours from the Sun, Voyager 2 has reached the edge of the heliosphere, the realm defined by the influence of the solar wind and the Sun's magnetic field. Now humanity's first ambassador to the Milky Way, Voyager 1 is over 19 light-hours away, beyond the heliosphere in interstellar space. Celebrate the Voyagers' 40 year journey toward the stars with NASA on September 5.

Poster Illustration Credit: NASA, JPL-Caltech, Voyager
Release Date: September 2, 2017


#NASA #Astronomy #Science #Space #Voyager #Voyager1 #Jupiter #Saturn #Voyager2 #Spacecraft #SolarSystem #Interstellar #MilkyWay #Exploration #History #JPL #Pasadena #California #UnitedStates #STEM #Education #Poster #Art

Milky Way Voyager 40th Anniversary Poster | NASA JPL


Launched in 1977 on a tour of the outer planets of the Solar System, Voyager 1 and 2 have become the longest operating and most distant spacecraft from Earth. Nearly 16 light-hours from the Sun, Voyager 2 has reached the edge of the heliosphere, the realm defined by the influence of the solar wind and the Sun's magnetic field. Now humanity's first ambassador to the Milky Way, Voyager 1 is over 19 light-hours away, beyond the heliosphere in interstellar space. Celebrate the Voyagers' 40 year journey toward the stars with NASA on September 5.

Poster Illustration Credit: NASA, JPL-Caltech, Voyager
Release Date: September 2, 2017


#NASA #Astronomy #Science #Space #Voyager #Voyager1 #Jupiter #Saturn #Voyager2 #Spacecraft #SolarSystem #Interstellar #MilkyWay #Exploration #History #JPL #Pasadena #California #UnitedStates #STEM #Education #Poster #Art #APoD

Friday, September 01, 2017

Catastrophic Storm Seen from Space on This Week @NASA



Sept. 1, 2017: We worked with our partner agencies to use space-based assets to capture imagery of Hurricane Harvey that impacted the Texas-Louisiana Gulf Coast region. Imagery captured from the vantage point of space, provides data that weather forecasters, emergency responders and other officials can use to better inform the public. Views from the International Space Station, and NOAA’s GOES East satellite showed the massive size and movement of the storm. While our Global Precipitation Measurement (GPM) Mission analyzed the storm’s record-breaking rainfall—which led to catastrophic flooding in Texas and Louisiana. Due to the storm, our Johnson Space Center in Houston is closed through Labor Day, while the region recovers, but Mission Control remains operational in support of the crew aboard the International Space Station.

Also, Final RS-25 Engine Test of the Summer, Key SLS Rocket Hardware Finished, and Researching Quiet Supersonic Flight!

Credit: NASA
Duration: 2 minutes, 24 seconds
Release Date: September 1, 2017


#NASA #NOAA #Earth #Science #Space #ISS #SLS #Rocket #Satellite #TropicalDepression #TropicalStorm #Hurricane #Harvey #Louisiana #Texas #UnitedStates #Weather #Storm #Precipitation #Rainfall #Goddard #GSFC #Supersonic #Flight #STEM #Education #HD #Video

Satellite Animation Shows Harvey Moving into Ohio Valley | NASA/NOAA



This animation of NOAA's GOES East satellite imagery from 10:15 a.m. CDT (1515 UTC) Aug. 30 to 10:15 a.m. CDT (1515 UTC) Sept. 1 shows Harvey weaken to a tropical depression on August 30 and become a post-tropical cyclone on Sept. 1 as it was moving into the Ohio Valley.

Credit: NASA-NOAA GOES Project
Duration: 21 seconds
Release Date: September 1, 2017


#NASA #NOAA #Earth #Science #Space #Satellite #TropicalDepression#TropicalStorm #Harvey #OhioValley #Gulf #Mexico #Louisiana #Texas#UnitedStates #Weather #Storm #Precipitation #Rainfall #GOES#GOESEAST #GOES13 #Goddard #GSFC #STEM #Education #Animation#HD #Video

Post-Tropical Cyclone Harvey | NASA/NOAA


Satellite Tracks Post-Tropical Cyclone Harvey Spreading into Ohio Valley
Sept. 1, 2017: Harvey is beginning to lose tropical characteristics as heavy rain spread toward the Ohio valley on Sept. 1. NOAA’s GOES East satellite provided a visible image of the clouds associated with the depression. Although Harvey has moved north and east, severe flooding continues across far eastern Texas and western Louisiana today, Sept. 1.

On Sept. 1, 2017 at 10:45 a.m. EDT (1445 UTC) NOAA’s GOES East satellite captured this visible image of the clouds associated with Post-Tropical Cyclone Harvey blanketing the Tennessee and Ohio Valleys and extending into the Mid-Atlantic region.

Flash flood watches and warnings are in effect from parts of Northern Mississippi across western Tennessee, Kentucky, southern Indiana and southwestern Ohio. Flood warnings remain in effect for parts of eastern Texas including the Houston metropolitan area and into western Louisiana.

NOAA’s Weather Prediction Center said Post-Tropical Cyclone Harvey is expected to produce an additional 1 to 3 inches of rain from western Kentucky into southeastern Indiana, southern Ohio and western West Virginia. Locally higher totals of 4 to 6 inches are possible around northern Kentucky. These rains will enhance the flash flooding risk across these areas. Meanwhile, widespread severe flooding will continue in and around Houston, Beaumont/Port Arthur/Orange, and eastward around the Louisiana border through the weekend.

On Sept. 1 at 11 a.m. EDT (1500 UTC) the center of Post-Tropical Cyclone Harvey was located near 36.4 degrees north latitude and 87.1 degrees west longitude. That puts the center about 30 miles (50 km) northwest of Nashville, Tennessee and about 111 miles (175 km) east-southeast of Paducah, Kentucky.

NOAA’s Weather Prediction Center noted that radar and satellite imagery show a loss of most tropical characteristics. Much of the moderate to heavy rains are organized to the north of the circulation center ahead of a warm front.

Harvey is moving northeastward toward the Ohio Valley and is expected to weaken Into Saturday, Sept. 2. An upper-level trough (elongated area of low pressure) arriving from the great lakes should begin to interact with the Harvey in Ohio on Sept. 2 and this is expected to support a secondary extratropical low over New England on Sept. 3. Minimum central pressure is 1002 millibars.

Public Advisories from the Weather Prediction Center will provide updates as long as the system remains a flood threat:
http://www.wpc.ncep.noaa.gov/tropical/tropstorms.shtml

The NASA/NOAA GOES Project at NASA's Goddard Space Flight Center in Greenbelt, Maryland created an image. NOAA manages the GOES series of satellites and the NASA/NOAA GOES Project creates images and animations from the data.

Credit: NASA/NOAA GOES Project
Release Date: September 1, 2017


#NASA #NOAA #Earth #Science #Space #Satellite #TropicalDepression #TropicalStorm #Harvey #OhioValley #Gulf #Mexico #Louisiana #Texas #UnitedStates #Weather #Storm #Precipitation #Rainfall #GOES #GOESEAST #GOES13 #Health #Safety #Alert #Warning #Goddard #GSFC #STEM #Education

Thursday, August 31, 2017

Sunrise | International Space Station



U.S. Astronaut Randy Bresnik: "Houston is reporting blue sky for the first time in many days! May this sunrise start the healing process." #HoustonStrong

Credit: NASA/JSC, U.S. Astronaut Jack Fischer
Release Date: August 30, 2017


#NASA #ISS #Earth #Science #Planet #Sun #Sunshine #Sunrise #Sunlight #EarthObservation #Astronaut #RandyBresnik #Human #Spaceflight #Expedition52 #JSC #Houston #Texas #UnitedStates #OverviewEffect #OrbitalPerspective #STEM #Education

NASA Concludes Summer Testing of Deep Space Rocket Engines



NASA engineers closed a summer of hot fire testing Aug. 30 for flight controllers on RS-25 engines that will help power the new Space Launch System (SLS) rocket being built to carry astronauts to deep-space destinations, including Mars. The 500-second hot fire an RS-25 engine flight controller unit on the A-1 Test Stand at Stennis Space Center near Bay St. Louis, Mississippi marked another step toward the nation’s return to human deep-space exploration missions. 

Credit: NASA Stennis 
Duration: 9 minutes 
Release Date: Aug 30, 2017 

#NASA #Space #Rocket #SLS #Engine #RS25 #Mars #SpaceLaunchSystem #JourneyToMars #DeepSpace #Propulsion #Engineering #Technology #Stennis #Mississippi #USA #UnitedStates #Marshall #AerojetRocketdyne #Asteroid #Moon #Lunar #Exploration #STEM #Education #HD #Video

Harvey | International Space Station


Hurricane in Gulf of Mexico photographed from cupola window in orbit
On August 25, 2017, NASA astronaut Jack Fischer photographed Hurricane Harvey from the cupola module aboard the International Space Station as it intensified on its way toward the Texas coast. The Expedition 52 crew on the station had been tracking this storm for the previous two days and capturing Earth observation photographs and videos from their vantage point in low Earth orbit.

Credit: NASA/JSC
Image Date: August 25, 2017


#NASA #ISS #Earth #Science #Hurricane #Harvey #Gulf #Mexico #Texas #Weather #Storm #Precipitation #EarthObservation #Astronauts #Crew #Human #Spaceflight #Expedition52 #UnitedStates #JSC #OverviewEffect #OrbitalPerspective #STEM #Education

Tropical Storm Harvey Centered over Gulf of Mexico | NOAA

Aug. 29, 2017 : GOES-16 captured this geocolor image of Tropical Storm Harvey centered over the Gulf of Mexico just before 8:00 a.m. (CDT) on August 29, 2017.

As of 7:00 a.m. CDT on August 29, NOAA's National Hurricane Center reported that Harvey, was located about 90 miles east-southeast of Port O'Connor, Texas, and moving toward the north-northeast near 3 miles per hour. This motion is expected to continue throughout the morning and then a turn toward the northeast is expected later today or tonight, followed by a turn toward the north-northeast on Wednesday (8/30). On the forecast track, the center of Harvey is expected to be just offshore of the middle and upper coasts of Texas through tonight, then move inland over the northwestern Gulf coast on Wednesday. Harvey's maximum sustained winds remain near 45 mph with higher gusts. Little change in strength is forecast during the next 48 hours.

Harvey is expected to produce additional rainfall accumulations of 7 to 13 inches through Friday (9/1) over parts of the upper Texas coast into southwestern Louisiana. Isolated storm totals may reach 50 inches over the upper Texas coast, including the Houston/Galveston metropolitan area. These rains are currently producing catastrophic and life-threatening flooding over large portions of southeastern Texas and southwestern Louisiana.

Created by our partners at the Cooperative Institute for Research in the Atmosphere, the experimental geocolor imagery enhancement shown here displays geostationary satellite data in different ways depending on whether it is day or night. This image, captured as daylight moves into the area, offers a blend of both, with nighttime features on the left side of the image and daytime on the right. In nighttime imagery (seen on the left side of this image), liquid water clouds appear in shades of blue, ice clouds are grayish-white, water looks black, and land appears gray. (The city lights are a static background created with VIIRS Day/Night Band imagery from the Suomi NPP satellite. It does not show any existing power outages.) In daytime imagery (shown on the right side of the image), land and shallow-water features appear as they do in true-color imagery.

Credit: NOAA/CIRA
Release Date: August 29, 2017

#NASA #NOAA #Earth #Science #Space #Satellite #TropicalStorm #Harvey #Gulf #Mexico #Texas #UnitedStates #Weather #Storm #Precipitation #Rainfall #GOES #GOES16 #Geocolor #Health #Safety #Alert #Warning #Goddard #GSFC #STEM #Education