Tuesday, May 09, 2023

NASA's SpaceX Crew-6: Official Portrait | International Space Station

NASA's SpaceX Crew-6: Official Portrait | International Space Station


The official SpaceX Crew-6 portrait with (from left), Mission Specialist and United Arab Emirates astronaut Sultan Alneyadi; Pilot Woody Hoburg and Commander Stephen Bowen, both NASA astronauts; and Mission Specialist and Roscosmos cosmonaut Andrey Fedyaev of Russia. The foursome will also be Expedition 69 Flight Engineers during their stay aboard the International Space Station.

NASA Astronaut William Hoburg's Official Biography:

https://www.nasa.gov/astronauts/biographies/warren-hoburg

https://www.nasa.gov/content/warren-hoburg-phd-nasa-astronaut

NASA Astronaut Stephen Bowen's Official Biography:

https://www.nasa.gov/astronauts/biographies/stephen-g-bowen


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.

Image Credit: NASA's Johnson Space Center (JSC) 

Release Date: May 8, 2023


#NASA #Space #Earth #Science #Astronauts #Cosmonauts #AndreyFedyaev #StephenBowen #WoodyHoburg #SultanAlneyadi #UAE #UAESA #MBRSC #HumanSpaceflight #Technology #Russia #Россия #Роскосмос #Microgravity #SpaceResearch #SpaceLaboratory #UNOOSA #UnitedStates #InternationalCooperation #Expedition69 #STEM #Education

Monday, May 08, 2023

Zooming in on a Stellar Nursery in Monoceros | European Southern Observatory

Zooming in on a Stellar Nursery in Monoceros | European Southern Observatory

In this zoom sequence we start with a broad panorama of the Milky Way, including the familiar constellation of Orion. As we close in on part of the adjacent constellation of Monoceros we start to see faint clouds and in the final part of the video the full glory of the Monoceros R2 star-forming region is revealed in a new image from the VISTA infrared telescope. Distance: 2,700 light-years


Credit: European Southern Observatory (ESO)/J. Emerson/VISTA/Digitized Sky Survey 2/A. Fujii. Acknowledgment: Cambridge Astronomical Survey Unit, Davide De Martin. 

Duration: 41 seconds

Release Date: Nov. 26, 2015


#NASA #ESO #Astronomy #Space #Science #StellarNursery #MonocerosR2 #Nebula #Monoceros #Constellation #MilkyWayGalaxy #Cosmos #Universe #Telescope #VISTASurveyTelescope #ParanalObservatory #Chile #SouthAmerica #Europe #STEM #Education #HD #Video

Monoceros R2 Star-forming Region: Infrared/Visible Light Crossfade | ESO

Monoceros R2 Star-forming Region: Infrared/Visible Light Crossfade | ESO

This video fades back and forth between views of the stellar nursery Monoceros R2 in visible and infrared light. The visible-light view was created from digitized photographs through red and blue filters forming part of the Digitized Sky Survey 2 (DSS) and the new infrared view comes from the VISTA telescope at Paranal. In the infrared, the thick, rich, dust clouds that cover much of the image become nearly transparent and a whole host of young stars and associated outflows become apparent.

Credit: European Southern Observatory (ESO)/J. Emerson/VISTA/Digitized Sky Survey 2. Acknowledgment: Cambridge Astronomical Survey Unit

Duration: 51 seconds

Release Date: Nov. 27, 2015


#NASA #ESO #Astronomy #Space #Science #StellarNursery #MonocerosR2 #Nebula #Monoceros #Constellation #MilkyWayGalaxy #Cosmos #Universe #Telescope #VISTASurveyTelescope #ParanalObservatory #Chile #SouthAmerica #Europe #STEM #Education #HD #Video

Drone Footage: NASA TROPICS CubeSat Launch in New Zealand | Rocket Lab

Drone Footage: NASA TROPICS CubeSat Launch in New Zealand Rocket Lab

Two NASA TROPICS CubeSats were successfully launched aboard Rocket Lab’s Electron rocket, named "Rocket Like A Hurricane," from Launch Complex 1 at Māhia, New Zealand at 9pm, May 7, 2023. 

TROPICS is a constellation of CubeSats that will help us better understand tropical storms and hurricanes around the globe. 

The NASA Time-Resolved Observations of Precipitation structure and storm Intensity with a Constellation of Smallsats (TROPICS) mission is a constellation of state-of-the-science observing platforms that will measure temperature and humidity soundings and precipitation with spatial resolution comparable to current operational passive microwave sounders but with unprecedented temporal resolution (median revisit time of 50 minutes). Each SmallSat hosts a 12-channel passive microwave spectrometer. The primary mission objective of TROPICS is to relate temperature, humidity, and precipitation structure to the evolution of tropical cyclone intensity.

Learn more at: https://tropics.ll.mit.edu/CMS/tropics/Mission-Overview

Rocket Lab's Electron is an expendable, vertically launched, two-stage rocket that uses liquid oxygen and kerosene as propellants. Each Electron rocket is around 60 feet (18 m) tall, with an exterior made of a carbon fiber composite, that can carry payloads weighing up to about 700 pounds (320 kilograms). Each Electron rocket uses nine Rutherford sea-level engines on its first stage, and a single Rutherford vacuum engine on its second stage. These engines use an electric turbopump powered by batteries to deliver propellants/fuel to the engines. 

A payload fairing protected the spacecraft or satellite as the rocket climbed through the atmosphere. An extra stage, called a kick stage, powered by a single Curie engine, circularized the orbits of the small satellites. Previous NASA missions that launched on an Electron rocket are the Cislunar Autonomous Positioning System Technology Operations and Navigation Experiment (CAPSTONE), as well as two Educational Launch of Nanosatellites (ELaNA) missions ELaNa 19 and 32.


Video Credit: Rocket Lab

Duration: 24 seconds

Capture Date: May 7, 2023


#NASA #Space #Earth #EarthScience #Planet #Atmosphere #Weather #Precipitation #Storms #TropicalCyclones #ClimateChange #GlobalWarming #TROPICSMission #CubeSats #RocketLab #ElectronRocket #RocketLikeAHurricane #MahiaPeninsula #NewZealand #KSC #NASALSP #UnitedStates #STEM #Education #HD #Video

Stellar Nursery Monoceros R2 (Infrared View) | European Southern Observatory

Stellar Nursery Monoceros R2 (Infrared View) | European Southern Observatory


This dramatic infrared image shows the nearby star formation region Monoceros R2, located some 2,700 light-years away in the constellation of Monoceros (the Unicorn). The picture was created from exposures in the near infrared bands Y, J and Ks taken by the VISTA survey telescope at the European Southern Observatory’s Paranal Observatory. Monoceros R2 is an association of massive hot young stars illuminating a beautiful collection of reflection nebulae, embedded in a large molecular cloud.


Credit: European Southern Observatory (ESO)/J. Emerson/VISTA

Acknowledgment: Cambridge Astronomical Survey Unit

Release Date: Oct. 6, 2010


#NASA #ESO #Astronomy #Space #Science #StellarNursery #MonocerosR2 #Nebula #Monoceros #Constellation #MilkyWayGalaxy #Cosmos #Universe #Telescope #VISTASurveyTelescope #ParanalObservatory #Chile #SouthAmerica #Europe #STEM #Education

Mexico's Espíritu Santo Archipelago | International Space Station

Mexico's Espíritu Santo Archipelago | International Space Station

The island group off Mexico’s Baja California Sur has eroded slowly, preserving evidence of past human activity. An astronaut aboard the International Space Station took this photograph of an island group in the Gulf of California near the southeastern edge of Baja California Sur. Sunglint reflects off the water surface, accentuating wave movement, ship wakes, and cloud shadows.

The island group comprises two large islands, Isla del Espíritu Santo and Isla La Partida, as well as several smaller surrounding islands, Isla Ballena, Gallo, Gallina, and Los Islotes. The islands appear rust-colored due to previous tectonic and volcanic activity that deposited layers of black lava and pink volcanic ash.

The Baja Peninsula acts as a natural wind and wave break that protects islands in the Gulf of California from erosion. Slowed erosion has resulted in the preservation of rock shelters and caves. Exploration and excavation of these shelters contribute to understanding the geomorphology, geology, and ancient human patterns on the islands. Archeologists have found human artifacts artifacts dating back approximately ten thousand years, providing evidence of human activity on the islands.

As part of a Gulf of California UNESCO World Heritage Site, the islands and surrounding waters are protected in order to support bird migration, endemic species, and marine life. The diverse wetlands and the preserved reef systems provide food and shelter to many species, including the endemic antelope squirrel, blue-spotted jawfish, and black-tailed brush lizard.  There is also a diverse bird population in the area, including brown pelicans, great blue herons, and hummingbirds.

Astronaut photograph ISS067-E-286000 was acquired with a Nikon D5 digital camera using a focal length of 400 millimeters. 


Image Credit: ISS Crew Earth Observations Facility and the Earth Science and Remote Sensing Unit, Johnson Space Center

Image Date: Aug. 20, 2022


#NASA #Space #ISS #Earth #Planet #Sunglint #Mexico #EspírituSantoArchipelago #GulfOfMexico #Science #Astronaut #AstronautPhotography #Art #Technology #HumanSpaceflight #Expedition67 #UnitedStates #International #STEM #Education

Cosmic Leviathan: Galaxy Cluster eMACS J1823.1+7822 | Hubble

Cosmic Leviathan: Galaxy Cluster eMACS J1823.1+7822 | Hubble


A vast galaxy cluster lurks in the center of this image from the NASA/European Space Agency Hubble Space Telescope. Like a submerged sea monster causing waves on the surface, this cosmic leviathan can be identified by the distortions in spacetime around it. The mass of the cluster has caused the images of background galaxies to be gravitationally lensed; the galaxy cluster has caused a sufficient curvature of spacetime to bend the path of light and cause background galaxies to appear distorted into streaks and arcs of light. A host of other galaxies can be seen surrounding the cluster, and a handful of foreground stars with tell-tale diffraction spikes are scattered throughout the image.

This particular galaxy cluster is called eMACS J1823.1+7822, and lies almost nine billion light-years away in the constellation Draco. It is one of five exceptionally massive galaxy clusters explored by Hubble in the hopes of measuring the strengths of these gravitational lenses and providing insights into the distribution of dark matter in galaxy clusters. Strong gravitational lenses like eMACS J1823.1+7822 can help astronomers study distant galaxies by acting as vast natural telescopes which magnify objects that would otherwise be too faint or distant to resolve.

This multiwavelength image layers data from eight different filters and two different instruments: Hubble’s Advanced Camera for Surveys and Wide Field Camera 3. Both instruments have the ability to view astronomical objects in just a small slice of the electromagnetic spectrum using filters, which allow astronomers to image objects at precisely selected wavelengths. The combination of observations at different wavelengths lets astronomers develop a more complete picture of the structure, composition and behavior of an object than visible light alone would reveal.

Image Description: A cluster of large galaxies, surrounded by various stars and smaller galaxies on a dark background. The central cluster is mostly made of bright elliptical galaxies that are surrounded by a warm glow. Close to the cluster core is the stretched, distorted arc of a galaxy, gravitationally lensed by the cluster.


Credit: European Space Agency (ESA)/Hubble & NASA, H. Ebeling

Release Date: May 8, 2023


#NASA #Hubble #Astronomy #Space #Galaxy #eMACSJ182317822 #GalaxyCluster #GravitationalLensing #Draco #Constellation #Science #Astrophysics #Cosmos #Universe #SpaceTelescope #ESA #Europe #GSFC #STScI #UnitedStates #STEM #Education

Young Fomalhaut Star's Asteroid Belt | James Webb Space Telescope

Young Fomalhaut Star's Asteroid Belt | James Webb Space Telescope

Dusty debris disc around star Fomalhaut

Dusty debris disc around star Fomalhaut (annotated)

Astronomers used the NASA/European Space Agency/Canadian Space Agency James Webb Space Telescope to image the warm dust around a nearby young star, Fomalhaut, in order to study the first asteroid belt ever seen outside of our Solar System in infrared light. However, to their surprise, they found that the dusty structures are much more complex than the asteroid and Kuiper dust belts of our Solar System. Overall, there are three nested belts extending out to 23 billion kilometers from the star—that is 150 times the distance of Earth from the Sun. The scale of the outermost belt is roughly twice the scale of our Solar System’s Kuiper Belt of small bodies and cold dust beyond Neptune. The inner belts—which had never been seen before—were revealed by Webb for the first time.

The belts encircle the young hot star, which can be seen with the naked eye as the brightest star in the southern constellation Piscis Austrinus. The dusty belts are the debris from collisions of larger bodies, analogous to asteroids and comets, and are frequently described as ‘debris discs’. “I would describe Fomalhaut as the archetype of debris discs found elsewhere in our galaxy, because it has components similar to those we have in our own planetary system,” said András Gáspár of the University of Arizona in Tucson and lead author of a new paper describing these results. “By looking at the patterns in these rings, we can actually start to make a little sketch of what a planetary system ought to look like—if we could actually take a deep enough picture to see the suspected planets.”

The NASA/European Space Agency Hubble Space Telescope and the European Space Agency Herschel Space Observatory, as well as the Atacama Large Millimeter/submillimeter Array (ALMA), have previously taken sharp images of the outermost belt. However, none of them found any structure interior to it. The inner belts have been resolved for the first time by Webb in infrared light. “Where Webb really excels is that we’re able to physically resolve the thermal glow from dust in those inner regions. So you can see inner belts that we could never see before,” said Schuyler Wolff, another member of the team at the University of Arizona.

Hubble, ALMA, and Webb are tag-teaming to assemble a holistic view of the debris discs around a number of stars. “With Hubble and ALMA, we were able to image a bunch of Kuiper Belt analogues, and we’ve learned loads about how outer discs form and evolve,” said Wolff. “But we need Webb to allow us to image a dozen or so asteroid belts elsewhere. We can learn just as much about the inner warm regions of these discs as Hubble and ALMA taught us about the colder outer regions.”

These belts are most likely shaped by the gravitational forces produced by unseen planets. Similarly, inside our Solar System Jupiter corrals the asteroid belt, the inner edge of the Kuiper Belt is sculpted by Neptune, and the outer edge could be shepherded by as-yet-unseen bodies beyond it. As Webb images more systems, we will learn about the configurations of their planets.

Fomalhaut’s dust ring was discovered in 1983 in observations made by NASA’s Infrared Astronomical Satellite (IRAS). The existence of the ring has also been inferred from previous and longer-wavelength observations using submillimeter telescopes on Maunakea, Hawai‘i, NASA’s Spitzer Space Telescope, and Caltech’s Submillimeter Observatory.

“The belts around Fomalhaut are kind of a mystery novel: Where are the planets?” said George Rieke, another team member and US science lead for Webb’s Mid-Infrared Instrument (MIRI), which made these observations. "I think it’s not a very big leap to say there’s probably a really interesting planetary system around the star.”

“We definitely didn’t expect the more complex structure with the second intermediate belt and then the broader asteroid belt,” added Wolff. “That structure is very exciting because any time an astronomer sees a gap and rings in a disc, they say, ‘There could be an embedded planet shaping the rings!’”

Webb also imaged what Gáspár dubs ‘the great dust cloud’, which may be evidence for a collision occurring in the outer ring between two protoplanetary bodies. This is a different feature from the suspected planet first seen inside the outer ring by Hubble in 2008. Subsequent Hubble observations showed that by 2014 the object had vanished. A plausible interpretation is that this newly discovered feature, like the earlier one, is an expanding cloud of very fine dust particles from two icy bodies that smashed into each other.

The idea of a protoplanetary disc around a star goes back to the late 1700s when astronomers Immanuel Kant and Pierre-Simon Laplace independently developed the theory that the Sun and planets formed from a rotating gas cloud that collapsed and flattened under gravity. Debris discs develop later, following the formation of planets and dispersal of the primordial gas in the systems. They show that small bodies like asteroids are colliding catastrophically and pulverising their surfaces into huge clouds of dust and other debris. Observations of dust provide unique clues to the structure of an exoplanetary system, reaching down to Earth-sized planets and even asteroids, which are much too small to see individually.

“This very exciting result highlights the unique power of MIRI to study the structures carved by planets in the innermost regions of circumstellar discs,“ adds Gillian Wright, European principal investigator for MIRI and Director of the UK Astronomy Technology Centre (UKATC).

The team’s results are being published in the journal Nature Astronomy.

More information

Webb is the largest, most powerful telescope ever launched into space. Under an international collaboration agreement, the European Space Agency (ESA) provided the telescope’s launch service, using the Ariane 5 launch vehicle. Working with partners, ESA was responsible for the development and qualification of Ariane 5 adaptations for the Webb mission and for the procurement of the launch service by Arianespace. ESA also provided the workhorse spectrograph NIRSpec and 50% of the mid-infrared instrument MIRI, which was designed and built by a consortium of nationally funded European Institutes (The MIRI European Consortium) in partnership with JPL and the University of Arizona.

Webb is an international partnership between NASA, ESA and the Canadian Space Agency (CSA).


Image Credit: NASA, ESA, CSA, A. Pagan (STScI), A. Gáspár (University of Arizona)

Release Date: May 8, 2023


#NASA #ESA #Astronomy #Space #Star #Fomalhaut #AsteroidBelt #PiscisAustrinus #Constellation #Science #JamesWebb #WebbTelescope #JWST #Telescope #Universe #UnfoldTheUniverse #Europe #CSA #Canada #Goddard #GSFC #STScI #UnitedStates #Infographic #STEM #Education

NASA TROPICS Earth Weather CubeSats Launched in New Zealand | Rocket Lab

NASA TROPICS Earth Weather CubeSats Launched in New Zealand Rocket Lab


Two NASA TROPICS CubeSats were successfully launched aboard Rocket Lab’s Electron rocket, named "Rocket Like A Hurricane," from Launch Complex 1 at Māhia, New Zealand at 9pm, May 7, 2023. 

TROPICS is a constellation of CubeSats that will help us better understand tropical storms and hurricanes around the globe. 

The NASA Time-Resolved Observations of Precipitation structure and storm Intensity with a Constellation of Smallsats (TROPICS) mission is a constellation of state-of-the-science observing platforms that will measure temperature and humidity soundings and precipitation with spatial resolution comparable to current operational passive microwave sounders but with unprecedented temporal resolution (median revisit time of 50 minutes). Each SmallSat hosts a 12-channel passive microwave spectrometer. The primary mission objective of TROPICS is to relate temperature, humidity, and precipitation structure to the evolution of tropical cyclone intensity.

Learn more at: https://tropics.ll.mit.edu/CMS/tropics/Mission-Overview

Rocket Lab's Electron is an expendable, vertically launched, two-stage rocket that uses liquid oxygen and kerosene as propellants. Each Electron rocket is around 60 feet (18 m) tall, with an exterior made of a carbon fiber composite, that can carry payloads weighing up to about 700 pounds (320 kilograms). Each Electron rocket uses nine Rutherford sea-level engines on its first stage, and a single Rutherford vacuum engine on its second stage. These engines use an electric turbopump powered by batteries to deliver propellants/fuel to the engines. 

A payload fairing protected the spacecraft or satellite as the rocket climbed through the atmosphere. An extra stage, called a kick stage, powered by a single Curie engine, circularized the orbits of the small satellites. Previous NASA missions that launched on an Electron rocket are the Cislunar Autonomous Positioning System Technology Operations and Navigation Experiment (CAPSTONE), as well as two Educational Launch of Nanosatellites (ELaNA) missions ELaNa 19 and 32.


Video Credit: Rocket Lab

Acknowledgement: SciNews

Duration: 4 minutes

Capture Date: May 7, 2023


#NASA #Space #Earth #EarthScience #Planet #Atmosphere #Weather #Precipitation #Storms #TropicalCyclones #ClimateChange #GlobalWarming #TROPICSMission #CubeSats #RocketLab #ElectronRocket #RocketLikeAHurricane #MahiaPeninsula #NewZealand #KSC #NASALSP #UnitedStates #STEM #Education #HD #Video

NASA TROPICS Earth Weather CubeSats Launched in New Zealand | Rocket Lab

NASA TROPICS Earth Weather CubeSats Launched in New Zealand Rocket Lab








Two NASA TROPICS CubeSats were successfully launched aboard Rocket Lab’s Electron rocket, named "Rocket Like A Hurricane," from Launch Complex 1 at Māhia, New Zealand at 9pm, May 7, 2023. 

TROPICS is a constellation of CubeSats that will help us better understand tropical storms and hurricanes around the globe. 

The NASA Time-Resolved Observations of Precipitation structure and storm Intensity with a Constellation of Smallsats (TROPICS) mission is a constellation of state-of-the-science observing platforms that will measure temperature and humidity soundings and precipitation with spatial resolution comparable to current operational passive microwave sounders but with unprecedented temporal resolution (median revisit time of 50 minutes). Each SmallSat hosts a 12-channel passive microwave spectrometer. The primary mission objective of TROPICS is to relate temperature, humidity, and precipitation structure to the evolution of tropical cyclone intensity.

Learn more at: https://tropics.ll.mit.edu/CMS/tropics/Mission-Overview

Rocket Lab's Electron is an expendable, vertically launched, two-stage rocket that uses liquid oxygen and kerosene as propellants. Each Electron rocket is around 60 feet (18 m) tall, with an exterior made of a carbon fiber composite, that can carry payloads weighing up to about 700 pounds (320 kilograms). Each Electron rocket uses nine Rutherford sea-level engines on its first stage, and a single Rutherford vacuum engine on its second stage. These engines use an electric turbopump powered by batteries to deliver propellants/fuel to the engines. 

A payload fairing protected the spacecraft or satellite as the rocket climbed through the atmosphere. An extra stage, called a kick stage, powered by a single Curie engine, circularized the orbits of the small satellites. Previous NASA missions that launched on an Electron rocket are the Cislunar Autonomous Positioning System Technology Operations and Navigation Experiment (CAPSTONE), as well as two Educational Launch of Nanosatellites (ELaNA) missions ELaNa 19 and 32.


Image Credit: Rocket Lab

Image Capture Date: May 7, 2023/ Images 7&8 on May 1, 2023


#NASA #Space #Earth #EarthScience #Planet #Atmosphere #Weather #Precipitation #Storms #TropicalCyclones #ClimateChange #GlobalWarming #TROPICSMission #CubeSats #RocketLab #ElectronRocket #RocketLikeAHurricane #MahiaPeninsula #NewZealand #KSC #NASALSP #UnitedStates #STEM #Education

Sunday, May 07, 2023

Zooming in on Barred Spiral Galaxy Messier 77 | ESO

 

Zooming in on Barred Spiral Galaxy Messier 77 | ESO


This video sequence takes the viewer deep into a detailed view of the active galaxy Messier 77 from  the European Southern Observatory ESO’s Very Large Telescope (VLT) in northern Chile.

Distance: 45 million light years


Credit: European Southern Observatory (ESO)

Duration: 50 seconds

Release Date: May 5, 2023


#NASA #ESO #Astronomy #Space #Science #Galaxy #Messier77 #Spiral #Barred #Cetus #Constellation #Cosmos #Universe #Telescope #VLT #Chile #SouthAmerica #Europe #STEM #Education #HD #Video

Panning across Barred Spiral Galaxy Messier 77 | ESO

Panning across Barred Spiral Galaxy Messier 77 | ESO

This video pans across an image of the barred spiral galaxy Messier 77, taken by the European Southern Observatory’s Very Large Telescope (VLT). This magnificent face-on view does justice to the galaxy’s beauty, showcasing its glittering arms criss-crossed with dust lane—but it fails to betray Messier 77’s turbulent nature.

Distance: 45 million light years


Credit: European Southern Observatory (ESO)

Duration: 20 seconds

Release Date: May 5, 2023


#NASA #ESO #Astronomy #Space #Science #Galaxy #Messier77 #Spiral #Barred #Cetus #Constellation #Cosmos #Universe #Telescope #VLT #Chile #SouthAmerica #Europe #STEM #Education #HD #Video

Open Star Cluster Messier 50 | Canada-France-Hawaii Telescope

Open Star Cluster Messier 50 | Canada-France-Hawaii Telescope


While free of gas from its nascent molecular cloud, this relatively young cluster is still very rich in massive blue stars. The brightness of these stars dominates the cluster of the stars that were formed at once at the heart of a star forming region. The smaller, hence fainter, stars will however outlive them.


Image Credit & Copyright: Canada-France-Hawaii Telescope (CFHT), Jean-Charles Cuillandre (CFHT) & Giovanni Anselmi (Coelum)

Release Date: Sept. 2017


#NASA #Space #Astronomy #Science #Stars #BlueStars #StarCluster #OpenStarCluster #Messier50 #Constellation #Monoceros #CanadaFranceHawaiiTelescope #Telescope #MegaCam #Hawaii #UnitedStates #STEM #Education

Orbiting a Black Hole near the Event Horizon: Fulldome view | ESO

Orbiting a Black Hole near the Event Horizon: Fulldome View | ESO

This fulldome clip shows how it would look from a low orbit around the black hole in the centre of the Milky Way near the event horizon. The accretion disk is visible.

Note: The full dome video display format is designed for projection systems in planetariums.


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

Duration: 1 minute, 15 seconds

Release Date: May 5, 2023


#NASA #ESO #Space #Astronomy #Science #BlackHoles #EventHorizon #BlackHole #Astrophysics #Chile #SouthAmerica #Europe #STEM #Education #Art #Illustration #Animation #Visualization #FullDome #HD #Video

History of China's Crewed Space Program (1992-2022) | CGTN

History of China's Crewed Space Program (1992-2022) | CGTN

From its inception in 1992, until the completion of China's first space station in 2022, here is a quick look at the milestones of China's crewed space program.


Credit: China Global Television Network (CGTN)

Duration: 9 minutes, 38 seconds

Release Date: April 24, 2023


#NASA #Space #China #中国 #Earth #Satellites #Project921 #LongMarchRockets #CSS #ChinaSpaceStation #中国空间站 #Shenzhou #Shenzhou15 #Taikonauts #Astronauts #CNSA #CMSA #国家航天局 #Science #Technology #Engineering #HumanSpaceflight #History #STEM #Education #HD #Video

The Helix Nebula | Canada-France-Hawaii Telescope

The Helix Nebula | Canada-France-Hawaii Telescope

Will our Sun look like this one day? The Helix Nebula is one of brightest and closest examples of a planetary nebula, a gas cloud created at the end of the life of a Sun-like star. The outer gasses of the star expelled into space appear from our vantage point as if we are looking down a helix. The remnant central stellar core, destined to become a white dwarf star, glows in light so energetic it causes the previously expelled gas to fluoresce. The Helix Nebula, given a technical designation of NGC 7293, lies about 700 light-years away towards the constellation of the Water Bearer (Aquarius) and spans about 2.5 light-years. The featured picture was taken with the Canada-France-Hawaii Telescope (CFHT) located atop a dormant volcano in Hawaii, USA. A close-up of the inner edge of the Helix Nebula shows complex gas knots of unknown origin.


Image Credit: CFHT, Coelum, MegaCam, J.-C. Cuillandre (CFHT) & G. A. Anselmi (Coelum)

Release Date: May 7, 2023


#NASA #Space #Astronomy #Science #PlanetaryNebula #HelixNebula #NGC7293 #Aquarius #Constellation #CanadaFranceHawaiiTelescope #Telescope #Hawaii #UnitedStates #APoD #STEM #Education