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Astronauts aboard the International Space Station took this photograph of Florida in October 2014. The peninsula is highly recognizable even at night, especially when looking roughly north, as our map-trained brains expect. Illuminated areas give a strong sense of the size of cities. The brightest continuous patch of lights is the Miami-Fort Lauderdale metropolitan area, the largest urban area in the southeastern U.S. and home to 5.6 million people. The next largest area is the Tampa Bay region (2.8 million people) on the Gulf Coast of the peninsula. Orlando, located in the middle, has a somewhat smaller footprint (2.3 million). A nearly straight line of cities runs nearly 560 kilometers (350 miles) along the Atlantic coast from Jacksonville, Florida, to Wilmington, North Carolina. South of Orlando, the center and southern portions of the peninsula are as dark as the Atlantic Ocean, vividly illustrating the almost population-free Everglades wetland. The lights of Cocoa Beach trace the curved lines of Cape Canaveral and the Kennedy Space Center, an area well known to astronauts. Dim lights of the Florida Keys extend the arc of the Atlantic coast to the corner of the image. The small cluster of lights far offshore is Freeport on Grand Bahama Island (image right). The faint blue areas throughout the image are clouds lit by moonlight. Image credit: NASA; -
Work on NASA's InSight Lander Starts New Phase Technicians in a Lockheed Martin clean room near Denver prepare NASA's InSight Mars lander for propulsion proof and leak testing on Oct. 31, 2014. Following the test, the lander was moved to another clean room for the start of the mission's assembly, test and launch operations (ATLO) phase. The assembly portion of ATLO will last about six months. The InSight mission (for Interior Exploration using Seismic Investigations, Geodesy and Heat Transport) is scheduled to launch in March 2016 and land on Mars six months later. It will investigate processes that formed and shaped Mars and will help scientists better understand the evolution of our inner solar system's rocky planets, including Earth. Credit: NASA/JPL-Caltech/Lockheed Martin; -
SLS Engine Section Barrel Hot off the Vertical Weld Center at Michoud The barrel for the engine section of NASA's new rocket, the Space Launch System, is taken off the Vertical Weld Center at NASA's Michoud Assembly Facility in New Orleans. The barrel is flight hardware to be used on the first uncrewed test flight of the 70-metric-ton configuration of the rocket. The engine section, made up of the barrel and a ring -- also welded at Michoud -- will hold four RS-25 engines that will power the core stage of the SLS. The core stage, towering more than 200 feet tall with a diameter of 27.5 feet, will store cryogenic liquid hydrogen and liquid oxygen that will feed the vehicle’s RS-25 engines. The Vertical Weld Center is part of a family of state-of-the-art tools at Michoud that is being used to build the core stage. Along with the engine section, it will weld barrel panels together to produce whole barrels for the SLS two pressurized tanks, the intertank and the forward skirt. It stands about three stories tall and weighs 150 tons. Image credit: NASA/Michoud; -
Efforts to conserve parks and protected areas around the world are being aided by Earth observations from space-based sensors operated by NASA and other organizations. “Sanctuary,” a new book released this week at the World Parks Congress in Sydney, Australia, highlights how the view from space is being used today to protect some of the world’s most interesting, changing, and threatened places. In the book’s foreword, NASA Administrator Charles Bolden writes, ““As a former astronaut who has looked upon our beautiful planet from space, I hope that we can advance the use of space-based remote sensing and other geospatial tools to study, understand, and improve the management of the world’s parks and protected areas as well as the precious biodiversity that thrives within their borders.” NASA’s basic research and applied conservation programs have advanced our understanding of global change impacts within and around protected areas. Ongoing projects include assessing coral reef health, investigating the vulnerability of U.S. National Parks to climate change, and establishing marine biodiversity observation networks. Seen here is development and agricultural clearing (pink areas) shown encroaching the Sundarbans mangroves along the Bay of Bengal in this Landsat 8 image taken in March 2014. Credit: NASA/USGS; -
Hubble Reveals a Super-Rich Galactic Neighborhood This new image from the NASA/ESA Hubble Space Telescope shows the super-rich galaxy cluster Abell 1413. Located between the constellations of Leo (The Lion) and Coma Berenices, the cluster is over 2 billion light-years from Earth. This image is dominated by a large and highly elliptical galaxy called MCG+04-28-097, with a halo of stars extending for more than 6.5 million light-years. The galaxies at the center of Abell 1413 are found to be very highly elliptical whereas those at the periphery are more spherical. Abell 1413 is part of the Abell catalog, a collection of over 4,000 rich clusters of galaxies fairly close to Earth — at least from a cosmological perspective — their light took less than 3 billion years to reach us. The clusters are called rich due to the huge number of galaxies they play host to. Abell 1413 is observed to contain more than 300 galaxies held together by the immense gravity of the cluster. The strong interactions between these galaxies cause the material in the cluster to be heated to extremely high temperatures of almost 100 million degrees. Because of this, the cluster emits very strong X-ray radiation. Visible distortions in the image can be seen in the form of arcs, caused by gravitational lensing. Gravitational lensing occurs when the intense gravity of the cluster bends space-time around it, causing a range of bizarre and beautiful optical phenomena for galaxies located in the background. This image was created from optical and near-infrared exposures taken with the Wide Field Channel of Hubble’s Advanced Camera for Surveys (ACS). Credit: ESA/NASA, Acknowledgement: Nick Rose;
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Sunrise on Saturn A new day dawns on Saturn as the part of the planet seen here emerges once more into the Sun's light. With an estimated rotation period of 10 hours and 40 minutes, Saturn's days and nights are much shorter than those on Earth. This view looks toward the sunlit side of the rings from about 25 degrees above the ringplane. The image was taken with the Cassini spacecraft wide-angle camera on Aug. 23, 2014 using a spectral filter which preferentially admits wavelengths of near-infrared light centered at 939 nanometers. The view was acquired at a distance of approximately 1.1 million miles (1.8 million kilometers) from Saturn and at a Sun-Saturn-spacecraft, or phase, angle of 127 degrees. Image scale is 67 miles (108 kilometers) per pixel. Credit: NASA/JPL-Caltech/Space Science Institute; -
IceBridge researchers continued their Antarctic work with a run of four flights in a row that targeted different science sites in western Antarctica. On Nov. 5, the IceBridge team carried out a survey of the Ferrigno and Alison ice streams and the Abbot Ice Shelf and ice along the Eights Coast. Weather forecasts showed clear conditions in West Antarctica, which typically only last for a few days. Less certain was how cloud cover would look in the Bellingshausen Sea, home of one of the mission’s highest priority flights. That uncertainty is what led mission planners to the decision they made. The Nov. 5 survey was a new design that incorporated elements of two previously flown missions. The Ferrigno and Alison ice stream portion of the flight followed coast-parallel lines last surveyed in 2012. After completing those back and forth lines, the team headed on to the Abbott Ice Shelf, measuring a region last surveyed during IceBridge’s first campaign in 2009. NASA’s Operation IceBridge images Earth's polar ice in unprecedented detail to better understand processes that connect the polar regions with the global climate system. IceBridge utilizes a highly specialized fleet of research aircraft and the most sophisticated suite of innovative science instruments ever assembled to characterize annual changes in thickness of sea ice, glaciers, and ice sheets. In addition, IceBridge collects critical data used to predict the response of earth’s polar ice to climate change and resulting sea-level rise. IceBridge also helps bridge the gap in polar observations between NASA's ICESat satellite missions. Seen here is a view of Mount Murphy in Antarctica's Marie Byrd Land seen on the Nov. 7, 2014, IceBridge survey flight. Credit: NASA / Michael Studinger; -
Efforts to conserve parks and protected areas around the world are being aided by Earth observations from space-based sensors operated by NASA and other organizations. “Sanctuary,” a new book released this week at the World Parks Congress in Sydney, Australia, highlights how the view from space is being used today to protect some of the world’s most interesting, changing, and threatened places. In the book’s foreword, NASA Administrator Charles Bolden writes, ““As a former astronaut who has looked upon our beautiful planet from space, I hope that we can advance the use of space-based remote sensing and other geospatial tools to study, understand, and improve the management of the world’s parks and protected areas as well as the precious biodiversity that thrives within their borders.” NASA’s basic research and applied conservation programs have advanced our understanding of global change impacts within and around protected areas. Ongoing projects include assessing coral reef health, investigating the vulnerability of U.S. National Parks to climate change, and establishing marine biodiversity observation networks. Pictured here is a July 2014 Landsat 8 image of the isolated island of protected forest around New Zealand’s Mt. Taranaki in Egmont National Park surrounded by once-forested pasturelands. Credit: NASA/USGS; -
Throwback Thursday: How Satellite Laser Ranging Got its Start Fifty years ago, NASA announced the first successful tracking of a satellite using a laser, a technique now standard for precisely determining satellite orbits. The landmark experiments were conducted at NASA’s Goddard Space Flight Center in Greenbelt, Maryland, and the results publicized on Nov. 13, 1964. Before the end of the decade, the technique had gone international, with five stations in the U.S. and France equipped for laser ranging. These days, more than 40 stations are in operation, located on every continent except Antarctica. The appeal of these measurements is their precision. In 1964, microwave radars for tracking satellites had a range accuracy up to about 250 feet (75 meters). NASA’s initial announcement about satellite laser ranging reported a range accuracy up to about 10 feet (3 meters) – about 25 times better. In this image, physicist Henry Plotkin examines the retroreflector array for Beacon Explorer A before integration onto the 1964 satellite. Image Credit: Courtesy of Henry Plotkin #TBT #Throwbackthursday #lasers; -
The giant black hole at the center of the Milky Way may be producing mysterious particles called neutrinos. If confirmed, this would be the first time that scientists have traced neutrinos back to a black hole. The evidence for this came from three NASA satellites that observe in X-ray light: the Chandra X-ray Observatory, the Swift gamma-ray mission, and the Nuclear Spectroscopic Telescope Array (NuSTAR). Neutrinos are tiny particles that carry no charge and interact very weakly with electrons and protons. Unlike light or charged particles, neutrinos can emerge from deep within their cosmic sources and travel across the universe without being absorbed by intervening matter or, in the case of charged particles, deflected by magnetic fields. The Earth is constantly bombarded with neutrinos from the sun. However, neutrinos from beyond the solar system can be millions or billions of times more energetic. Scientists have long been searching for the origin of ultra-high energy and very high-energy neutrinos. Image Credit: NASA/CXC/Univ. of Wisconsin/Y.Bai. et al.;
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A filament, which at one point had an eerie similarity to a snake, broke away from the Sun and out into space on Nov. 1, 2014. This video covers just over three hours of activity. This kind of eruptive event is called a Hyder flare. These are filaments (elongated clouds of gases above the Sun's surface) that erupt and cause a brightening at the Sun's surface, although no active regions are in that area. It did thrust out a cloud of particles but not towards Earth. The images were taken in a wavelength of extreme UV light. Credit: NASA/SDO; -
“We congratulate ESA on their successful landing on a comet today," says John Grunsfeld, astronaut and associate administrator for NASA’s Science Mission Directorate in Washington, about the successful comet landing by the European Space Agency’s Rosetta mission. "This achievement represents a breakthrough moment in the exploration of our solar system and a milestone for international cooperation. We are proud to be a part of this historic day and look forward to receiving valuable data from the three NASA instruments on board Rosetta that will map the comet’s nucleus and examine it for signs of water." "The data collected by Rosetta will provide the scientific community, and the world, with a treasure-trove of data. Small bodies in our solar system like comets and asteroids help us understand how the solar system formed and provide opportunities to advance exploration. We look forward to building on Rosetta's success exploring our solar system through our studies of near earth asteroids and NASA's upcoming asteroid sample return mission OSIRIS-REx. It’s a great day for space exploration." This is the first time in history that a spacecraft has attempted a soft landing on a comet. Rosetta is an international mission led by the European Space Agency (ESA), with instruments provided by its member states, and additional support and instruments provided by NASA. Comets are considered primitive building blocks of the solar system that are literally frozen in time. They may have played a part in "seeding" Earth with water and, possibly, the basic ingredients for life. Image credit: ESA/Rosetta/Philae/ROLIS/DLR #CometLanding #Rosetta #Philae #nasa #space; -
At 8:54 p.m. EST Tuesday, the Orion spacecraft began its 22 mile trek from the Launch Abort System Facility at NASA’s Kennedy Space Center in Florida to Space Launch Complex 37 at Cape Canaveral Air Force Station. A little after 10 p.m., the spacecraft will stop in front of Kennedy’s Vehicle Assembly Building. Orion is expected to reach Space Launch Complex 37 at approximately 2 a.m., Wednesday, and be hoisted on top of the United Launch Alliance Delta IV Heavy rocket later in the morning. Orion is in the final stages of preparation for its uncrewed flight test, targeted for Dec. 4, that will take it 3,600 miles above Earth on a 4.5 hour flight that will test many of the systems critical for future human missions into deep space. After two orbits and nearly 60,000 miles, Orion will re-enter Earth’s atmosphere at almost 20,000 mph before its parachute system deploys to slow the spacecraft for a splashdown in the Pacific Ocean. On future missions, the Orion spacecraft will send astronauts farther into the solar system than ever before, including to an asteroid and on the journey to Mars. Pictured here is the Orion spacecraft in front of the Vehicle Assembly Building at NASA's Kennedy Space Center. Image credit: NASA; -
The ruddy color of Jupiter's Great Red Spot is likely a product of simple chemicals being broken apart by sunlight in the planet's upper atmosphere, according to a new analysis of data from NASA's Cassini mission. The results contradict the other leading theory for the origin of the spot's striking color -- that the reddish chemicals come from beneath Jupiter's clouds. Researchers arrived at their conclusions using a combination of data from Cassini's December 2000 Jupiter flyby and laboratory experiments. In the lab, the researchers blasted ammonia and acetylene gases -- chemicals known to exist on Jupiter -- with ultraviolet light, to simulate the sun's effects on these materials at the extreme heights of clouds in the Great Red Spot. This produced a reddish material, which the team compared to the Great Red Spot as observed by Cassini's Visible and Infrared Mapping Spectrometer (VIMS). They found that the light-scattering properties of their red concoction nicely matched a model of the Great Red Spot in which the red-colored material is confined to the uppermost reaches of the giant cyclone-like feature. A coloring agent confined to the top of the clouds would be inconsistent with the competing theory, which posits that the spot's red color is due to upwelling chemicals formed deep beneath the visible cloud layers, he said. If red material were being transported from below, it should be present at other altitudes as well, which would make the red spot redder still. The Great Red Spot is a long-lived feature in Jupiter's atmosphere that is as wide as two earths. Jupiter possesses three main cloud layers, which occupy specific altitudes in its skies; from highest to lowest they are: ammonia, ammonium hydrosulfide and water clouds. Image credit: NASA/JPL-Caltech/ Space Science Institute; -
Hubble Catches Jets, Bubbles, Bursts of Light in Taurus The NASA/ESA Hubble Space Telescope has snapped a striking view of a multiple star system called XZ Tauri, its neighbor HL Tauri, and several nearby young stellar objects. XZ Tauri is blowing a hot bubble of gas into the surrounding space, which is filled with bright and beautiful clumps that are emitting strong winds and jets. These objects illuminate the region, creating a truly dramatic scene. This dark and ominous landscape is located some 450 light-years away in the constellation of Taurus (The Bull). It lies in the northeastern part of a large, dark cloud known as LDN 1551. Just to the left of center in this image, embedded within a rust-colored cloud, lies XZ Tauri. While it appears to be a single star, this bright spot actually consists of several stars. It has long been known to be a binary, but one of these two stars is thought also to be a binary, making a total of three stars within a single system. Above and to the right of XZ Tauri, an equally epic scene is unfolding. Wisps of deep red seem to be streaking away from the blue-tinged clumps on the right. This bright blue patch contains a star known as HL Tauri, which is associated with Herbig-Haro object HH 150. Herbig-Haro objects are streaks of hot gas blasted into space by newborn and newly forming stars and LDN 1551 is particularly rich in these dramatic objects. In the bottom right of this Hubble image is another Herbig-Haro object known as HH 30 (opo9905), associated with the variable star V1213 Tauri. The star itself is hidden within a flat, bright disk of dust that is split in half by a dark lane. This dust blocks direct light from V1213 Tauri, but the star is visible via its reflected light and the prominent, knotty jets it is blasting out into space. Image credit: ESA/Hubble and NASA; acknowledgement: Judy Schmidt;
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