Tuesday, September 20, 2022

Hubble Resolves Myriad Stars in Dense Star Cluster Omega Centauri

Hubble Resolves Myriad Stars in Dense Star Cluster Omega Centauri

This video pans across the Hubble Wide Field Camera 3’s panoramic view of 100,000 stars lying in the center of the globular star cluster Omega Centauri. The stars vary in age and change color as they get older. Most of them are middle-aged, yellowish stars like our Sun. However, as they near the end of their lives, they balloon into red giants, and later still, into hot, blue stars.


Credit: European Space Agency/Hubble, NASA and the SM4 ERO Team

Duration: 25 seconds

Release Date: February 17, 2016


#NASA #ESA #Astronomy #Space #Science #Hubble #Stars #StarCluster #GlobularCluster #OmegaCentauri #Centaurus #Constellation #MilkyWay #Galaxy #Cosmos #Universe #SpaceTelescope #STScI #GSFC #UnitedStates #Europe #Astronomer #JohannBayer #History #STEM #Education #HD #Video

Zooming into Globular Cluster Omega Centauri | Hubble

Zooming into Globular Cluster Omega Centauri | Hubble

Zooming from a wide-field image of the constellation Centaurus into the heart of the globular cluster Omega Centauri with 100,000 stars.

Distance: about 16,000 light-years 


Credit: R. Gendler, ESA/Hubble (M. Kornmesser & L. L. Christensen)

Duration: 56 seconds

Release Date: Feb 17, 2016

#NASA #ESA #Astronomy #Space #Science #Hubble #StarCluster #GlobularCluster #OmegaCentauri #Centaurus #Constellation #MilkyWay #Galaxy #Cosmos #Universe #SpaceTelescope #STScI #GSFC #UnitedStates #Europe #Astronomer #JohannBayer #History #STEM #Education #HD #Video

Colorful Stars Galore inside the Globular Star Cluster Omega Centauri | Hubble

Colorful Stars Galore inside the Globular Star Cluster Omega Centauri | Hubble

The NASA/European Space Agency Hubble Space Telescope snapped this panoramic view of a colorful assortment of 100,000 stars residing in the crowded core of a giant star cluster.

The image reveals a small region inside the massive globular cluster Omega Centauri, which boasts nearly 10 million stars. Globular clusters, ancient swarms of stars united by gravity, are almost as old as our Milky Way galaxy. The stars in Omega Centauri are between 10 billion and 12 billion years old. The cluster lies about 16,000 light-years from Earth.

This is one of the first images taken by the new Wide Field Camera 3 (WFC3), installed aboard Hubble in May 2009, during Servicing Mission 4. The camera can snap sharp images over a broad range of wavelengths.

The photograph showcases the camera's color versatility by revealing a variety of stars in key stages of their life cycles.

The majority of the stars in the image are yellow-white, like our Sun. These are adult stars that are shining by hydrogen fusion. Towards the ends of their normal lives, the stars become cooler and larger. These late-life stars are the orange dots in the image.

Even later in their life cycles, the stars continue to cool down and expand in size, becoming red giants. These bright red stars swell to many times larger than our Sun's size and begin to shed their gaseous envelopes.

After ejecting most of their mass and exhausting much of their hydrogen fuel, the stars appear brilliant blue. Only a thin layer of material covers their super-hot cores. These stars are desperately trying to extend their lives by fusing helium in their cores. At this stage, they emit much of their light at ultraviolet wavelengths.

When the helium runs out, the stars reach the end of their lives. Only their burnt-out cores remain, and they are called white dwarfs (the faint blue dots in the image). White dwarfs are no longer generating energy through nuclear fusion and have gravitationally contracted to the size of Earth. They will continue to cool and grow dimmer for many billions of years until they become dark cinders.

Other stars that appear in the image are known as "blue stragglers". They are older stars that acquire a new lease of life when they collide and merge with other stars. The encounters boost the stars' energy-production rate, making them appear bluer.

All of the stars in the image are cosy neighbors. The average distance between any two stars in the cluster's crowded core is only about a third of a light-year, roughly 13 times closer than our Sun's nearest stellar neighbor, Proxima Centauri. Although the stars are close together, WFC3's sharpness can resolve each of them as individual stars. If anyone lived in this globular cluster, they would behold a star-saturated sky that is roughly 100 times brighter than Earth's sky.

Globular clusters were thought to be assemblages of stars that share the same birth date. Evidence suggests, however, that Omega Centauri has at least two populations of stars with different ages. Some astronomers think that the cluster may be the remnant of a small galaxy that was gravitationally disrupted long ago by the Milky Way, losing stars and gas.

Omega Centauri is among the biggest and most massive of some 200 globular clusters orbiting the Milky Way. It is one of the few globular clusters that can be seen with the unaided eye. Named by Johann Bayer in 1603 as the 24th brightest object in the constellation of Centaurus, it resembles a small cloud in the southern sky and might easily be mistaken for a comet.

Hubble observed Omega Centauri on July 15, 2009, in ultraviolet and visible light. These Hubble observations of Omega Centauri are part of the Hubble Servicing Mission 4 Early Release Observations.


Credit: NASA, ESA and the Hubble SM4 ERO Team

Release Date: September 9, 2009


#NASA #ESA #Astronomy #Space #Science #Hubble #StarCluster #GlobularCluster #OmegaCentauri #Centaurus #Constellation #MilkyWay #Galaxy #Cosmos #Universe #SpaceTelescope #STScI #GSFC #UnitedStates #Europe #Astronomer #JohannBayer #History #STEM #Education

Flying through the Young Star Cluster Westerlund 1 (Artist's Impression) | ESO

Flying through the Young Star Cluster Westerlund 1 (Artist's Impression) | ESO

In this video, we fly through the young star cluster Westerlund 1 and close in on the strange magnetar that lies within it. This remarkable cluster contains hundreds of very massive stars, some shining with a brilliance of almost one million suns. European astronomers have for the first time demonstrated that the magnetar—an unusual type of neutron star with an extremely strong magnetic field—was formed from a star with at least 40 times as much mass as the Sun.

Distance: ~15,000 light years


Credit: European Southern Observatory (ESO)/L. Calçada

Duration: 36 seconds

Release Date: May 23, 2014


#NASA #ESO #Astronomy #Space #Science #Stars #StarCluster #Westerlund1 #Star #W26 #Hypergiant #RedSupergiant #NeutronStar #Magnetar #Ara #Constellation #MilkyWay #Galaxy #Cosmos #Universe #Chile #Europe #STEM #Education #Visualization #Art #ArtistImpression #HD #Video

Monday, September 19, 2022

Surprise Cloud around Vast Star in Westerlund 1 | ESO

Surprise Cloud around Vast Star in Westerlund 1 | ESO

This picture from the VLT Survey Telescope (VST) at the European Southern Observatory's Paranal Observatory shows the remarkable super star cluster Westerlund 1. This exceptionally bright cluster lies about 16,000 light-years from Earth in the southern constellation of Ara (The Altar). It contains hundreds of very massive and brilliant stars, all of which are just a few million years old— babies by stellar standards. However, our view of this cluster is hampered by gas and dust that prevents most of the visible light from the cluster's stars from getting to Earth.

Astronomers studying images of Westerlund 1 from a survey of the southern skies [1] have spotted something unexpected in this cluster. Around one of the stars—known as W26, a red supergiant and possibly the biggest star known—they have discovered clouds of glowing hydrogen gas, shown as green features in this new image.

Such glowing clouds around massive stars are very rare, and are even rarer around a red supergiant— this is the first ionized nebula discovered around such a star. W26 itself would be too cool to make the gas glow; the astronomers speculate that the source of the ionizing radiation may be either hot blue stars elsewhere in the cluster, or possibly a fainter, but much hotter, companion star to W26.

W26 will eventually explode as a supernova. The nebula that surrounds it is very similar to the nebula surrounding SN1987A, the remnants of a star that went supernova in 1987 [2]. SN1987A was the closest observed supernova to Earth since 1604, and as such it gave astronomers a chance to explore the properties of these explosions. Studying objects like this new nebula around W26 will help astronomers to understand the mass loss processes around these massive stars, which eventually lead to their explosive demise.

Notes:

[1] This picture forms part of a detailed public survey of a large part of the Milky Way called VPHAS+ that is using the power of the VST to search for new objects such as young stars and planetary nebulae. 

[2] This nebula is thought to have surrounded SN1987A’s progenitor star since before it went supernova.


Credit: European Southern Observatory (ESO)/VPHAS+ Survey/N. Wright

Release Date: October 14, 2013


#NASA #ESO #Astronomy #Space #Science #Stars #StarCluster #Westerlund1 #Star #W26 #Hypergiant #RedSupergiant #Ara #Constellation #MilkyWay #Galaxy #Cosmos #Universe #VLTSurveyTelescope #ParanalObservatory #Chile #Europe #STEM #Education

Westerlund 1's Comet-like Stars | ESO

Westerlund 1's Comet-like Stars | ESO


This spectacular image was produced from data gathered by the Atacama Large Millimeter/submillimeter Array (ALMA) in Chile, combined with data from the NASA/European Space Agency Hubble Space Telescope. It shows a cluster of stars named Westerlund 1, one of the most massive young star clusters known to reside in the Milky Way.

Excitingly, it also shows the comet-like “tails” of material stretching away from some of the giant stars in Westerlund 1. Such tails are formed in the thick, relentless winds that pour from the cluster’s stellar residents, carrying material outwards.

This phenomenon is similar to how comets get their famous and beautiful tails. Comet tails in the Solar System are driven away from the nucleus of their parent comet by a wind of particles that streams out from the Sun. Consequently comet tails always point away from our Sun. Similarly, the tails of the huge red stars shown in this image point away from the core of the cluster, likely the result of powerful cluster winds generated by the hundreds of hot and massive stars found towards the center of Westerlund 1.

These massive structures cover large distances and indicate the dramatic effect the environment can have on how the stars form and evolve.

These comet-like tails were detected during an ALMA study of Westerlund 1 that aimed to explore the cluster’s constituent stars and figure out how, and at what rate, they lose their mass. The cluster is known to host a large amount of massive stars, many of them intriguing and rare types, making it of great interest and use to astronomers wishing to understand the myriad stars in our galaxy.


Credit: European Southern Observatory (ESO)/D. Fenech et al.; ALMA (ESO/NAOJ/NRAO)

Release Date: December 3, 2018


#NASA #ESO #Hubble #Astronomy #Space #Science #Stars #Westerlund1 #Star #Hypergiant #RedSupergiant #Ara #Constellation #MilkyWay #Galaxy #Cosmos #Universe #ALMA #Chile #Europe #STEM #Education

Westerlund 1: Home to a Hypergiant | Hubble

Westerlund 1: Home to a Hypergiant | Hubble

Light travels through space at just under 300,000 kilometers per second! This staggering speed is used to calculate astronomical distances; although often misinterpreted as a unit of time (due to its misleading name), a light-year is actually a unit of astronomical distance, and is defined as the distance that light travels in a year. For reference, this is around nine trillion kilometers . . . but it is a little tricky to visualize!

With this in mind, 15,000 light-years may sound like a truly huge distance, but compared to the vastness of the cosmos, it is quite close. In fact, an object sitting 15,000 light-years away would not even be outside our home galaxy, the Milky Way. This is roughly the distance between us and a young super star cluster known as Westerlund 1, home to one of the largest stars ever discovered.

Stars are classified according to their spectral type, surface temperature, and luminosity. While studying and classifying the cluster’s constituent stars, astronomers discovered that Westerlund 1 is home to one of the largest stars ever discovered, originally named Westerlund 1-26. It is a red supergiant (although sometimes classified as a hypergiant) with a radius over 1,500 times that of our Sun. If Westerlund 1-26 were placed where our Sun is in our Solar System, it would extend out beyond the orbit of Jupiter.

Most of Westerlund 1’s stars are thought to have formed in the same burst of activity, meaning that they have similar ages and compositions. The cluster is relatively young in astronomical terms—at around three million years old it is a baby compared to our own Sun, which is some 4.6 billion years old.


Credit: European Space Agency (ESA)/Hubble & NASA

Release Date: March 6, 2017


#NASA #ESA #Astronomy #Space #Science #Hubble #Stars #Westerlund1 #Star #Hypergiant #RedSupergiant #Ara #Constellation #MilkyWay #Galaxy #Cosmos #Universe #SpaceTelescope #STScI #GSFC #UnitedStates #Europe #STEM #Education

NASA Artemis I Moon Rocket: Lightning Strikes at Pad 39B | Kennedy Space Center

NASA Artemis I Moon Rocket: Lightning Strikes at Pad 39B | Kennedy Space Center

Lightning strikes were recorded at Launch Complex 39B at NASA’s Kennedy Space Center (KSC) in Florida on Sept. 12, 2022. NASA’s Space Launch System (SLS) and Orion spacecraft atop the mobile launcher are on the launch pad in preparation for the Artemis I Moon mission. The lightning strikes were recorded by cameras stationed at the pad and mobile launcher using a special filter called a “clear day frame,” which provides an overlay of the raw frame on a reference image. 

Artemis I will be the first integrated test of the SLS and Orion spacecraft. In later missions, NASA will land the first woman and the first woman of color on the surface of the Moon, paving the way for a long-term lunar presence and serving as a steppingstone on the way to Mars.

Lightning Strike on Sept. 12, 2022

Lightning Strike on Sept. 12, 2022

Lightning Strike on June 10, 2022

Image Credit: National Aeronautics and Space Administration (NASA)

Release Date: September 19, 2022


#NASA #ESA #Space #Earth #Meteorology #Lightning #Weather #Moon #Artemis #ArtemisI #Orion #Spacecraft #SLS #Rocket #Astronauts #Mars #JourneyToMars #Science #Engineering #Technology #DeepSpace #Exploration #SolarSystem #KSC #LaunchComplex39B #LC39B #Spaceport #Florida #UnitedStates #History #STEM #Education

Expedition 68: Soyuz Rocket Rolls to Launchpad | International Space Station

Expedition 68: Soyuz Rocket Rolls to Launchpad | International Space Station 

At the Baikonur Cosmodrome in Kazakhstan, the Soyuz 2.1a rocket that will launch the Soyuz MS-22 crew to the International Space Station rolled out from its integration building to the launch pad for final preparations. While that took place, members of the Expedition 68 crew, Soyuz Commander Sergei Prokopyev (Roscosmos), Dmitri Petelin (Roscosmos), and Frank Rubio of NASA—along with their backups, Oleg Kononenko and Nikolai Chub of Roscosmos and Loral O’Hara of NASA—participated in final prelaunch training activities.


Astronaut Frank Rubio’s Official NASA biography:

https://www.nasa.gov/astronauts/biographies/frank-rubio/biography/


An international partnership of space agencies provides and operates the elements of the  International Space Station (ISS). The principals are the space agencies of the United States, Russia, Europe, Japan, and Canada. The ISS has been the most politically complex space exploration program ever undertaken.


Credit: National Aeronautics and Space Administration (NASA)

Duration: 7 minutes

Release Date: September 19, 2022


#NASA #ISS #Earth #Science #Soyuz #Rocket #SoyuzMS22 #Spacecraft #Cosmonauts #Commander #SergeyProkopyev #DmitriPetelin #Russia #Россия #Astronaut #FrankRubio #UnitedStates #JSC #BaikonurCosmodrome #Kazakhstan #Қазақстан #Human #Spaceflight #Expedition68 #STEM #Education #HD #Video

"The Most Metal of Rockets": Delta IV Heavy | United Launch Alliance

"The Most Metal of Rockets": Delta IV Heavy | United Launch Alliance

ULA: "The nation's heavy lifter: The Delta IV Heavy has a proven heavy lift capability to deliver high-priority national security and science exploration missions."


Credit: United Launch Alliance (ULA)

Duration: 47 seconds

Release Date: September 19, 2022


#NASA #Astronomy #Space #Science #ULA #UnitedLaunchAlliance #DeltaIV #DeltaHeavy #Rocket #HeavyLaunch #Spacecraft #UnitedStates #SolarSystem #Exploration #Spaceflight #Civilian #Military #CommercialSpace #History #STEM #Education #HD #Video

Moments with NASA Astronaut Frank Rubio | Johnson Space Center

Moments with NASA Astronaut Frank Rubio | Johnson Space Center

NASA astronaut Frank Rubio, along with Roscosmos cosmonauts Sergey Prokopyev and Dmitri Petelin, is scheduled to launch to the International Space Station Wednesday, Sept. 21, 2022, aboard the Soyuz MS-22 spacecraft from the Baikonur Cosmodrome in Kazakhstan. He will be a flight engineer and member of the Expedition 68 station crew.

The Miami, Florida, native graduated from the U.S. Military Academy and earned a doctor of medicine degree from the Uniformed Services University of the Health Sciences in Bethesda, Maryland. Prior to attending medical school, he served as a UH-60 Blackhawk helicopter pilot and flew more than 1,100 hours, including more than 600 hours of combat and imminent danger time during deployments to Bosnia, Afghanistan, and Iraq. Rubio is a board-certified family physician and flight surgeon. 

Find Rubio’s official NASA biography at:

https://www.nasa.gov/astronauts/biographies/frank-rubio/biography/


An international partnership of space agencies provides and operates the elements of the  International Space Station (ISS). The principals are the space agencies of the United States, Russia, Europe, Japan, and Canada. The ISS has been the most politically complex space exploration program ever undertaken.


Credit: NASA's Johnson Space Center (JSC)

Duration: 1 minute, 52 seconds

Release Date:  September 19, 2022


#NASA #Space #ISS #Earth #Science #Astronaut #FrankRubio #Pilot #Roscosmos #Cosmonauts #SergeyProkopyev #DmitriPetelin #AnnaKikina #YuryevnaKikina #HumanSpaceflight #JSC #UnitedStates #ESA #Europe #Japan #日本 #Russia #Россия #Canada #Expedition68 #STEM #Education #HD #Video

Hear Meteoroid Striking Mars, Captured by NASA’s InSight Lander | NASA/JPL

Hear Meteoroid Striking Mars, Captured by NASA’s InSight Lander | NASA/JPL

NASA’s InSight lander detected seismic waves from a meteoroid and was able to capture the sound of the space rock striking the surface of Mars for the first time. The meteoroid—the term used for incoming space rocks before they hit the ground—entered Mars’ atmosphere on Sept. 5, 2021, exploding into at least three shards that each left craters behind. Mars’ atmosphere is just 1% as dense as Earth’s, allowing far more meteoroids to pass through and impact the Red Planet’s surface.

This event marks the first time seismic and acoustic waves from an impact were detected on the Red Planet. Why does this meteoroid impact sound like a “bloop” in the video? It has to do with a peculiar atmospheric effect that’s also observed in deserts on Earth.

After sunset, the atmosphere retains some heat accumulated during the day. Sound waves travel through this heated atmosphere at different speeds, depending on their frequency. As a result, lower-pitched sounds arrive before high-pitched sounds. An observer close to the impact would hear a “bang,” while someone many miles away would hear the bass sounds first, creating a “bloop.”

NASA’s Mars Reconnaissance Orbiter flew over the estimated impact site to confirm the location. The orbiter used its black-and-white Context Camera to reveal three darkened spots on the surface. 

After locating these spots, the orbiter’s team used the High-Resolution Imaging Science Experiment camera, or HiRISE, to get a color close-up of the craters. Because HiRISE sees wavelengths the human eye cannot detect, scientists change the camera’s filters to enhance the color of the image. The areas that appear blue around the craters are where dust has been removed or disturbed by the blast of the impact. Martian dust is bright and red, so removing it makes the surface appear relatively dark and blue. 

For more information on InSight, visit:

https://mars.nasa.gov/insight/


Credit: NASA/JPL-Caltech/University of Maryland/University of Arizona/CNES/IPGP/Manchu/Bureau 21/ETH Zurich/Kirschner/van Driel

Duration: 1 minute, 58 seconds

Release Date: September 19, 2022


#NASA #Astronomy #Space #Science #Mars #Planet #RedPlanet #Meteorites #Meteoroid #InsightLander #Geoscience #Geology #Sound #Audio #SolarSystem #Exploration #DLR #Deutschland #CNES #France #JPL #Caltech #UnitedStates #STEM #Education #HD #Video

Mars is Mighty: First Observations | James Webb Space Telescope

Mars is Mighty: First Observations | James Webb Space Telescope


The James Webb Space Telescope captured its first images and spectra of Mars on September 5, 2022. The telescope, an international collaboration between NASA, the European Space Agency and the Canadian Space Agency, provides a unique perspective with its infrared sensitivity on our neighboring planet, complementing data being collected by orbiters, rovers, and other telescopes.

Webb’s unique observation post nearly 1.5 million kilometers away at the Sun-Earth Lagrange point 2 (L2) provides a view of Mars’ observable disk (the portion of the sunlit side that is facing the telescope). As a result, Webb can capture images and spectra with the spectral resolution needed to study short-term phenomena like dust storms, weather patterns, seasonal changes, and, in a single observation, processes that occur at different times (daytime, sunset, and nighttime) of a Martian day.

Because it is so close, the Red Planet is one of the brightest objects in the night sky in terms of both visible light (which human eyes can see) and the infrared light that Webb is designed to detect. This poses special challenges to the observatory, which was built to detect the extremely faint light of the most distant galaxies in the universe. Webb’s instruments are so sensitive that without special observing techniques, the bright infrared light from Mars is blinding, causing a phenomenon known as “detector saturation.” Astronomers adjusted for Mars’ extreme brightness by using very short exposures, measuring only some of the light that hit the detectors, and applying special data analysis techniques.

Webb’s first images of Mars, captured by the Near-Infrared Camera (NIRCam), show a region of the planet’s eastern hemisphere at two different wavelengths, or colors of infrared light. This image shows a surface reference map from NASA and the Mars Orbiter Laser Altimeter (MOLA) on the left, with the two Webb NIRCam instrument field of views overlaid. The near-infrared images from Webb are shown on the right.

The NIRCam shorter-wavelength (2.1 microns) image [top right] is dominated by reflected sunlight, and thus reveals surface details similar to those apparent in visible-light images [left]. The rings of the Huygens Crater, the dark volcanic rock of Syrtis Major, and brightening in the Hellas Basin are all apparent in this image.

The NIRCam longer-wavelength (4.3 microns) image [lower right] shows thermal emission—light given off by the planet as it loses heat. The brightness of 4.3-micron light is related to the temperature of the surface and the atmosphere. The brightest region on the planet is where the Sun is nearly overhead, because it is generally warmest. The brightness decreases toward the polar regions, which receive less sunlight, and less light is emitted from the cooler northern hemisphere, which is experiencing winter at this time of year.

However, temperature is not the only factor affecting the amount of 4.3-micron light reaching Webb with this filter. As light emitted by the planet passes through Mars’ atmosphere, some gets absorbed by carbon dioxide (CO2) molecules. The Hellas Basin—which is the largest well-preserved impact structure on Mars, spanning more than 2,000 kilometers—appears darker than the surroundings because of this effect.

In the future, Webb will be using this imaging and spectroscopic data to explore regional differences across the planet, and to search for trace species in the atmosphere, including methane and hydrogen chloride.

These observations of Mars were conducted as part of Webb’s Cycle 1 Guaranteed Time Observation (GTO) Solar System program led by Heidi Hammel of the Association of Universities for Research in Astronomy (AURA).

The  European Space Agency (ESA) operates two Mars orbiters, Mars Express and the ExoMars Trace Gas Orbiter, that have brought a treasury of insight into the Red Planet’s atmosphere and surface. Furthermore, ESA collaborates with the Japanese Aerospace Exploration Agency (JAXA) on the Martian Moons eXploration (MMX) mission, soon to launch for Mars’ moon Phobos.

Note: This post highlights images from Webb science in progress, which has not yet been through the peer-review process.


Credit: NASA, European Space Agency (ESA), Canadian Space Agency (CSA), Space Telescope Science Institute (STScI), Mars JWST/GTO team

Release Date: September 19, 2022


#NASA #ESA #Astronomy #Space #Science #Mars #Planet #RedPlanet #HuygensCrater #SyrtisMajor #HellasBasin #NIRCam #Infrared #JamesWebb #WebbTelescope #JWST #SpaceTelescope #SolarSystem #Cosmos #Universe #UnfoldTheUniverse #Europe #CSA #Canada #GSFC #STScI #STEM #Education

Bright Night Lights of London | International Space Station

Bright Night Lights of London | International Space Station


European Space Agency Astronaut Samantha Cristoforetti of Italy:

"Lights shine bright in London at night . . . My thoughts are with the family and all those who bid farewell to Her Majesty Queen Elizabeth II today." 

Learn about Samantha's Minerva Mission: https://bit.ly/MissionMinerva


Expedition 67 Crew

Commander Oleg Artemyev (Russia)

Roscosmos Flight Engineers: Denis Matveev and Sergey Korsakov (Russia)

NASA Flight Engineers: Kjell Lindgren, Bob Hines, Jessica Watkins (USA)

European Space Agency (ESA) Flight Engineer: Samantha Cristoforetti (Italy)

An international partnership of space agencies provides and operates the elements of the  International Space Station (ISS). The principals are the space agencies of the United States, Russia, Europe, Japan, and Canada. The ISS has been the most politically complex space exploration program ever undertaken.

Learn more about the important research being operated on ISS: https://www.nasa.gov/iss-science


Credit: ESA/NASA-S.Cristoforetti

Release Date: September 19, 2022


#NASA #Space #ISS #ESA #UnitedKingdom #QueenElizabethII #Funeral #London #City #Night #Astronaut #FlightEngineer #SamanthaCristoforetti #Minerva #MissionMinerva #Italy #Italia #Science #Technology #HumanSpaceflight #Expedition67 #Europe #UnitedStates #Russia #Россия #Japan #日本 #International #STEM #Education

Scarp Dune Blues at North Pole of Mars | NASA's Mars Reconnaissance Orbiter

Scarp Dune Blues at North Pole of Mars | NASA's Mars Reconnaissance Orbiter


This enhanced color image (using the red-green-blue filter) shows a group of lovely barchan dunes along a scarp (cliff) in Chasma Boreale in the North Pole of Mars. A barchan or barkhan dune is a crescent-shaped dune. Our primary goal is to track for seasonal changes over time.

These dunes were captured by NASA's Mars Reconnaissance Orbiter (MRO) using the High Resolution Imaging Science Experiment (HiRISE) instrument. MRO has orbited the Red Planet since 2006.

Image cutout is less than 1 km (under a mile) across and the spacecraft altitude was 197 km.

Malin Space Science Systems built the Mars Color Imager (MARCI), Context Camera (CTX) systems for MRO.

The University of Arizona, Tucson, operates HiRISE, which was built by Ball Aerospace & Technologies Corp., Boulder, Colorado. 

NASA's Jet Propulsion Laboratory, a division of Caltech in Pasadena, California, manages the Mars Reconnaissance Orbiter Project for NASA's Science Mission Directorate, Washington.


Credit: NASA/JPL-Caltech/University of Arizona

Release Date: September 6, 2022


#NASA #Space #Astronomy #Mars #Planet #RedPlanet #Science #Geology #Landscape #Terrain #Geoscience #NorthPole #ChasmaBoreale #BarchanDunes #Dunes #MRO #Orbiter #Spacecraft #HiRISE #Camera #JPL #Caltech #UniversityOfArizona #BallAerospace #MSSS #STEM #Education

Soyuz MS-21 Crew Spacecraft over the Caribbean Sea | International Space Station

Soyuz MS-21 Crew Spacecraft over the Caribbean Sea | International Space Station


The Soyuz MS-21 crew ship is pictured attached to the Prichal docking module as the International Space Station orbited 259 miles above the Caribbean Sea in between the island nations of Grenada and Trinidad and Tobago.

An international partnership of space agencies provides and operates the elements of the International Space Station (ISS). The principals are the space agencies of the United States, Russia, Europe, Japan, and Canada. The ISS has been the most politically complex space exploration program ever undertaken.

Learn more about the important research being operated on the International Space Station:

https://www.nasa.gov/iss-science 

For more information about STEM on Station:

https://www.nasa.gov/stemonstation

Science, Technology, Engineering, Math (STEM) Education


Credit: NASA's Johnson Space Center (JSC)

Image Date: Sept. 15, 2022


#NASA #Space #ISS #Earth #Roscosmos #Cosmonauts #Soyuz #Союз #SoyuzMS21 #Spacecraft #Роскосмос #Russia #Россия #JSC #Houston #Texas #UnitedStates #Grenada #Trinidad #Tobago #Caribbean #CaribbeanSea #AtlanticOcean #Expedition67 #InternationalCooperation #UNOOSA #STEM #Education