The Lagoon Nebula | Cerro Tololo Inter-American Observatory
Credit: SSRO/PROMPT/CTIO
Release Date: June 30, 2020
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The Lagoon Nebula | Cerro Tololo Inter-American Observatory
Credit: SSRO/PROMPT/CTIO
Release Date: June 30, 2020
China's Crewed Lunar Missions Rocket: Reusable Engines, Intelligent Flight System
The Long March-10 series of rockets for China's crewed lunar mission is a reusable launch vehicle with intelligent technologies to cope with possible system failures during the flight. As new-generation carrier rockets specially developed for the crewed lunar exploration, the Long March-10 series has two versions: the lunar version is meant for Moon landing and the near-Earth version is mainly to carry out space station missions.
To reduce the operating costs of the China Space Station, the first-stage rocket of the near-Earth version has been designed with reusable technology. Its main engine has completed over 10 tests for reusable verification.
"The re-usability scheme of the near-Earth rocket's first stage has already passed scaled-down verification tests on land and at sea. We hope to enter the phase of engineering verification at an early date. We have come up with some innovative methods, which should be able to provide a reference for developing other models in the future, and later we can may develop some near-Earth version of rockets for commercial use," said Xu Hongping, an engineer with China Aerospace Science and Technology Corporation (CASC).
To better ensure the safety of astronauts, the Long March-10 series also features a "smart brain" and other intelligent technologies to enable the rocket to detect and troubleshoot problems autonomously during flight to support mission success.
"During the research and development, we took into consideration all possible failure modes that we can imagine. When a failure occurs, we can continue finishing our established tasks through mission re-planning and reconstruction of the entire system," said Xu.
The Long March-10 is a strategic support for China to land astronauts on the Moon before 2030, and it is expected to prepare for its maiden flight in 2027, according to CASC.
The Long March-10, measuring 92.5 meters (303.5 feet) tall, is a three-stage super-heavy rocket that burns kerosene and liquid oxygen.
Its first stage is five meters wide and powered by seven YF-100K engines. Along with two boosters, each also consisting of seven YF-100K engines, the rocket can generate a thrust of 2,678 tonnes at lift-off.
It is capable of delivering at least 27 tonnes to an Earth-moon transfer orbit—around three times the capacity of Long March-5, China’s most powerful rocket to date.
Video Credit: CCTV Video News Agency
Duration: 1 minute, 35 seconds
Release Date: June 16, 2024
#NASA #Space #Earth #China #中国 #Beijing #北京 #LongMarch10Rocket #RocketEngines #YF100KEngine #EngineTesting #CASC #Moon #月亮 #Taikonauts #Astronauts #HumanSpaceflight #CNSA #CMSA #国家航天局 #Science #SpaceTechnology #SpaceEngineering #STEM #Education #HD #Video
The Lagoon Nebula in Sagittarius | Kitt Peak National Observatory
The Lagoon Nebula, Messier object 8 (M8) or NGC 6523, in the constellation of Sagittarius. This full color image was created from eight images taken in the BVR pass-bands at the Burrell Schmidt telescope of Case Western Reserve University's Warner and Swasey Observatory. The Burrell Schmidt is located on Kitt Peak, near Tucson, Arizona. The images were taken in June 1995 during the Research Experiences for Undergraduates (REU) program operated at the Kitt Peak National Observatory and supported by the National Science Foundation.
North is at the top with east to the left.
Credit: N.A.Sharp, REU Program / NOIRLab / NSF / AURA
Release Date: June 30, 2020
#NASA #Astronomy #Space #Science #Nebulae #Nebula #M8 #NGC6523 #LagoonNebula #Sagittarius #Constellation #Cosmos #Universe #Observatory #Telescope #Optical #NOIRLab #AURA #NSF #BurrellSchmidtTelescope #SwaseyObservatory #KittPeak #Tucson #Arizona #UnitedStates #STEM #Education
China Develops Lunar Long March-10 Carrier Rocket for Moon Landings
China is developing a lunar version of its Long March-10 carrier rockets for upcoming moon landing missions. A ground test run for the the first-stage propulsion system of the lunar version rocket was completed on Friday, June 14, 2024, marking a key step to achieve the first crewed moon landing goal by 2030.
The Long March 10 uses a modular design. This allows a flexible configuration of modules depending on the need of the mission. Currently, the crewed launch vehicle has two main versions for space missions.
The Long March-10, measuring 92.5 meters (303.5 feet) tall, is a three-stage super-heavy rocket that burns kerosene and liquid oxygen.
Its first stage is five meters wide and powered by seven YF-100K engines. Along with two boosters, each also consisting of seven YF-100K engines, the rocket can generate a thrust of 2,678 tonnes at lift-off.
It is capable of delivering at least 27 tonnes to an Earth-moon transfer orbit—around three times the capacity of Long March-5, China’s most powerful rocket to date.
"The lunar version is mainly used to send the lunar lander and manned spacecraft to the lunar orbit, so it has two configurations, one for launching the lander and the other for launching the manned spacecraft. The near-Earth version currently under intensive R&D also has two configurations, and is mainly used in the operation and development stage of the space station project, mainly for transporting people and cargo," said Xu Hongping, an engineer with the China Aerospace Science and Technology Corporation (CASC).
For China’s planned crewed moon landing, Long March-10 rockets will be tasked with two launches—one to send the Mengzhou spacecraft towards the lunar orbit, and another to launch the Lanyue moon lander.
These two spacecraft will then rendezvous and dock in lunar orbit, and two astronauts will enter the moon lander from the Mengzhou.
After the lander touches down on the lunar surface, the astronauts will drive a rover to carry out scientific investigations and collect rock samples, according to state broadcaster CCTV.
Once they complete their mission, the crew will return to Lanyue and depart the moon. They will dock with Mengzhou in lunar orbit and return to Earth with the samples they collected, CCTV said in July after a successful hot-fire test of the YF-100K engine.
China has been working on all key components of its planned moon landings, such as the crew spacecraft, the moon lander and rover, and the lunar landing suits.
Video Credit: CCTV Video News Agency
Duration: 38 seconds
#NASA #Space #Earth #China #中国 #Beijing #北京 #LongMarch10Rocket #RocketEngines #YF100KEngine #EngineTesting #CASC #Moon #月亮 #Taikonauts #Astronauts #HumanSpaceflight #CNSA #CMSA #国家航天局 #Science #SpaceTechnology #SpaceEngineering #STEM #Education #HD #Video
The Leo Triplet of Galaxies: Wide-field View | ESO
This visible-light wide-field image of the region around the Leo Triplet of galaxies was created from photographs taken through blue and red filters and forming part of the Digitized Sky Survey 2 (DSS2). The galaxies appear to the lower right of center. The bright star at the upper right is the naked eye star Theta Leonis. The field of view is approximately 4.4 degrees across.
Distance: 35 million light years
Credit: European Southern Observatory (ESO) and Digitized Sky Survey 2
Release Date: July 27, 2011
The Leo Triplet of Galaxies and Beyond | European Southern Observatory
A triplet of bright galaxies in the constellation of Leo (The Lion), together with a multitude of fainter objects—distant background galaxies and much closer Milky Way stars. The image hints at the power of the VLT Survey Telescope (VST) and OmegaCAM for surveying the extragalactic Universe and for mapping the low brightness objects of the galactic halo. This image is a composite created by combining exposures taken through three different filters. Light that passed through a near-infrared filter was colored red, light in the red part of the spectrum is colored green, and green light is colored magenta.
Credit: European Southern Observatory/INAF-VST/OmegaCAM Acknowledgement: OmegaCen/Astro-WISE/Kapteyn Institute
Release Date: July 27, 2011
#NASA #ESO #Astronomy #Space #Science #LeoTriplet #Galaxies #M66 #Galaxy #NGC3628 #NGC3627 #NGC3623 #SpiralGalaxies #InteractingGalaxies #Leo #Constellation #Cosmos #Universe #VST #OmegaCAM #ParanalObservatory #AtacamaDesert #Chile #UnitedStates #STEM #Education
Image Credit: REU Program / NOIRLab / NSF / AURA
Release Date: June 30, 2020
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Close-up View: Spiral Galaxy NGC 3628 in Leo | ESO
NGC 3628 is a spiral galaxy and a member of a small, but conspicuous group of galaxies located about 35 million light-years away, toward the constellation of Leo (the Lion). The other distinguished members of this family, known collectively as the Leo Triplet, are two well-known prominent spiral galaxies, Messier 65 and Messier 66 (not seen on the image). They were both discovered in 1780 by famous French comet hunter Charles Messier. NGC 3628 is the faintest of the trio and escaped Messier’s observations with his rather small telescope. It was discovered and cataloged by William Herschel only four years later.
NGC 3628 hides its spiral structure because it is seen perfectly edge-on, exactly as we observe the Milky Way galaxy on a clear night. Its most distinctive feature is a dark band of dust that lies across the plane of the disc. NGC 3628 is visibly distorted outwards, as a consequence of the gravitational interaction between NGC 3628 and its bullying companions. This boxy or “peanut-shaped” bulge, seen as a faint X-shape, is formed mainly of young stars and gas and dust. It has created the bulge away from the plane of the rest of the galaxy through their powerful motions. Because of its appearance, NGC 3628 was cataloged as Arp 317 in the Atlas of Peculiar Galaxies, published in 1966. It aimed to characterize a large sample of odd objects that fell outside the standard Hubble classification, to aid understanding of how galaxies evolve.
The depth of the image reveals a myriad of galaxies of different shapes and colors, a number much further away than NGC 3628. Particularly noticeable is the fuzzy blob just in the center of the image, a diffuse satellite galaxy. A number of globular clusters can be seen as fuzzy reddish spots in the halo of the galaxy. Also visible as bright spots near the lower edge of the image (the two blue star-like objects below the satellite galaxy) are two quasars, the central engines of distant and very energetic galaxies, billions of light-years away.
This image has been taken with the FORS2 instrument, attached to one of the European Southern Observatory's Very Large Telescope’s Unit Telescopes. It is a combination of exposures taken through different filters (B, V and R), for a total exposure time of just below one hour. The field of view is about 7 arcminutes across. This is why this large galaxy does not fit into the image.
Credit: European Southern Observatory (ESO)
Release Date: June 28, 2010
#NASA #ESO #Astronomy #Space #Science #Galaxies #Galaxy #NGC3628 #SpiralGalaxy #LeoTriplet #Leo #Constellation #Cosmos #Universe #Telescope #Optical #VLT #FORS2 #ParanalObservatory #AtacamaDesert #Chile #SouthAmerica #UnitedStates #STEM #Education
Edge-on Spiral Galaxy NGC 3628 in Leo | Mayall Telescope
The Nicholas U. Mayall Telescope is a four-meter (158 inches) reflector telescope in Arizona named after Nicholas U. Mayall. It saw first light on February 27, 1973, and was the second-largest telescope in the world at that time.
Credit: T.A. Rector (University of Alaska Anchorage) and H. Schweiker (WIYN and NOIRLab/NSF/AURA)
Release Date: June 30, 2020
Milky Way, Large & Small Magellanic Cloud Galaxies over Western Australia
Astrophotographer Trevor Dobson: "This is a 39 shot panorama of the Milky Way rising above a lone tree on a farm at Contine, 1.5 hours south east of Perth in Western Australia. Prominent in this image are the Large & Small Magellanic Clouds to the right, small satellite galaxies of our own Milky Way. Just right of centre at the very top is the pink coloured Carina Nebula, while just below that is the dark CoalSack Nebula with Crux (Southern Cross) to its immediate left."
"I used an h-alpha filter to highlight the various red coloured hydrogen alpha emitting regions, most prominent in and around the core area on the left."
The Small Magellanic Cloud, or SMC, is a small galaxy about 200,000 light-years way that orbits our own Milky Way spiral galaxy.
Nearly 200,000 light-years from Earth, the Large Magellanic Cloud, another satellite galaxy of the Milky Way, floats in space, in a long and slow dance around our galaxy.
Nikon d810a 50mm, ISO 3200, f/3.2
Foreground: 6 x 15 seconds
Sky: 25 x 30 seconds
H-Alpha: 8 x 60 seconds
iOptron SkyTracker
Image Date: March 10, 2024
Release Date: June 8, 2024
#NASA #Space #Astronomy #Science #MilkyWayGalaxy #LMC #SMC #Galaxies #Nebulae #CarinaNebula #CoalNebula #LightPollution #CitizenScience #Astrophotographer #TrevorDobson #Astrophotography #Cosmos #Universe #SolarSystem #Earth #Contine #WesternAustralia #Australia #STEM #Education
First-Stage Rocket Engines for China’s Crewed Moon Missions Complete Trial Run
China on Friday, June 14, 2024, successfully completed a trial run for the first-stage propulsion system of the Long March-10 carrier rocket, marking a key step toward realizing its crewed Moon landing goal by 2030.
Conducted at Institute 101 of the Sixth Academy of China Aerospace Science and Technology Corporation (CASC) in Beijing, it was the first large-scale system-level ground test of the Long March-10 series that will be used for the country’s future crewed lunar missions that will full verify many key technologies.
The test run of the propulsion system is equivalent to a launch without takeoff. Three engines of the system started normally, worked stably and shut down on time, and all tested parameters showed no abnormalities.
"The test is basically a comprehensive verification of our first-stage module. It was a complete success, laying a solid foundation for our subsequent research and development and the realization of our entire manned lunar exploration program," said Xu Hongping, an engineer with CASC.
The Long March-10 is a three-and-a-half-stage rocket developed for the purpose of sending crewed spacecraft and Moon landers into the Earth-Moon transfer orbit. It has a total length of about 92 meters, a takeoff weight of over 2,180 tonnes, a takeoff thrust of about 2,678 tonnes, and a carrying capacity of no less than 27 tonnes for the Earth-Moon transfer orbit. A non-booster configuration of the new rocket is capable of conducting missions for transporting astronauts and cargo to the space station.
"The development of new-generation crewed rockets can greatly enhance our country's ability to enter space and help the Chinese land on the Moon. In addition, its technological breakthroughs can drive the development of our entire aerospace industry and will be a considerable boost to the country's advanced manufacturing sector," said Xu.
According to CASC's development plan, the second trial run for the Long March-10 rocket's first-stage propulsion system will be carried out in the near future to further verify other working conditions.
Video Credit: CCTV
Duration: 1 minute, 43 seconds
Release Date: June 14, 2024
#NASA #Space #Earth #China #中国 #Beijing #北京 #LongMarch10Rocket #RocketEngine #EngineTesting #CASC #Moon #月亮 #嫦娥 #Taikonauts #Astronauts #HumanSpaceflight #CNSA #CMSA #国家航天局 #Science #SpaceTechnology #SpaceEngineering #STEM #Education #HD #Video
Melting Sea Ice Swirls off Greenland's East Coast | NASA Terra Earth Satellite
Floating fragments of sea ice spun into intricate patterns as ocean currents carried them south along Greenland’s east coast in spring 2024. The Moderate Resolution Imaging Spectroradiometer (MODIS) on NASA’s Terra satellite captured a moment of this dizzying journey on June 4, 2024.
Much of the ice has likely drifted a great distance to get to this point. The Fram Strait, a 450-kilometer (280-mile)-wide passage between Greenland and Svalbard (to the north, out of view), connects the Arctic Ocean with the Greenland Sea. It serves as the primary route for sea ice out of the Arctic. After moving through the Fram Strait, ice is swept south along the Greenland coast by the East Greenland Current.
Along the way, it breaks into smaller pieces and starts to melt in warmer ocean waters. “The smaller the floes, the more ‘wispy’ the patterns,” said Walt Meier, a sea ice scientist at the National Snow and Ice Data Center (NSIDC). The small ice fragments in those swirling patterns may only be meters or tens of meters across, he said—too small to distinguish in MODIS imagery. The aggregation of small pieces imparts the look of hazy, smoke-like curls to the surface of the water.
The predominant southward current along the coast gets perturbed by the jagged coastline, other offshore currents, and occasionally winds coming off the Greenland Ice Sheet, said Meier, forming eddies that are made visible by the ice chunks. “With the thinning and breaking up of the ice, it becomes more easily pushed around by the winds and current,” he said.
Larger floes appear closer to the shoreline. This ice is likely more local in origin, breaking off from the fast ice and becoming entrained in the swirling waters. Fast ice, anchored to the shore or shallow ocean bottom, is visible at the top of the image and along other sections of the coast.
As the summer wears on, ice will continue to drift out of the Arctic. However, in recent years, more of the Arctic Ocean’s sea ice has become too young and thin to make the journey south, noted Angela Bliss, a sea ice scientist at NASA’s Goddard Space Flight Center. “Historically, when more of the Arctic sea ice would survive the summer melt season, growing thicker and older, a larger volume of sea ice would be transported through the Fram Strait,” she said.
Climate scientists are watching this diminished flow closely. The movement of sea ice and freshwater out of the Arctic is a component of ocean circulation patterns that distribute heat around the planet. The so-called “global ocean conveyor belt” transports cold water south and warm water north, contributing to climate conditions worldwide. “Less ice and freshwater transport have big implications for ocean productivity, as well as warming upper ocean temperatures, in the region,” said Bliss.
A 2023 study looking at two decades of ocean-mooring observations found that the East Greenland Current is moving less sea ice through the Fram Strait, primarily due to sea ice thinning. The researchers observed that summertime surface water temperatures off Greenland have risen, in part due to the increased presence of heat-absorbing open water. The water column has also become less stratified, making more nutrients available to phytoplankton communities.
Image Credit: NASA/Wanmei Liang, using MODIS data from NASA EOSDIS LANCE and GIBS/Worldview
Story Credit: Lindsey Doermann
Image Date: June 4, 2024
Release Date: June 13, 2024
#NASA #Space #Satellites #TerraSatellite #Science #Planet #Earth #Greenland #Denmark #SeaIce #MeltingIce #Environment #ClimateChange #GlobalWarming #GlobalHeating #Atmosphere #EarthObservation #RemoteSensing #GSFC #UnitedStates #STEM #Education
The Devil's Tower Nebula: RCW 85 in Centaurus
From the 1960 astronomical catalog of Rodgers, Campbell and Whiteoak (RCW), emission region RCW 85 shines in Earth's southern night skies between the bright stars Alpha and Beta Centauri. About 5,000 light years distant, the hazy interstellar cloud of glowing hydrogen gas and dust is faint. However, detailed structures along well-defined rims within RCW 85 are traced in this cosmic skyscape composed of 28 hours of narrow and broadband exposures. Suggestive of dramatic shapes in other stellar nurseries where natal clouds of gas and dust are sculpted by energetic winds and radiation from newborn stars, the tantalizing nebula has been called the Devil's Tower. This telescopic frame would span around 100 light-years at the estimated distance of RCW 85. The bright star in the upper-left is HD125158.
Image Credit & Copyright: Martin Pugh
Martn's website: https://www.martinpughastrophotography.space/about
Release Date: June 14, 2024
#NASA #Astronomy #Space #Science #Nebulae #Nebula #RCW85 #DevilsTowerNebula #Stars #AlphaCentauri #BetaCentauri #StarHD125158 #Constellation #Centaurus #MilkyWayGalaxy #Cosmos #Universe #CitizenScience #Astrophotography #Astrophotographer #MartinPugh #STEM #Education #APoD
China Solar Explorer Satellite Capable of Rapid Multi-Spectral High-res Scans
The China H-alpha Solar Explorer (CHASE) satellite is capable of conducting rapid solar H-alpha high-resolution spectral imaging in just dozens of seconds each time. It is much like recording precise computed tomography (CT) scans of the Sun to advance humanity's understanding of the rotation of the solar atmosphere.
Discoveries in solar atmospheric rotation patterns by the CHASE satellite were published in the international science journal Nature Astronomy on Thursday, June 13, 2024:
https://www.nature.com/articles/s41550-024-02299-4
Scientists were able to make the discoveries through accurate 3D imagery of solar atmospheric rotation put together by CHASE's multi-spectral, full disk, high precision scans. The satellite, placed into a sun-synchronous orbit, is able to acquire more comprehensive and accurate solar data by being outside the Earth's atmosphere. It also marked the world's first practical use of solar H-alpha spectral imaging in space.
"It only takes 46 seconds for CHASE to scan the whole solar disk. We are able to get more than 300 images of the whole solar disk at different layers, which is equivalent to a CT scan of the solar atmosphere," said Li Chuan, chief designer of CHASE's application system.
CHASE's full-disk spectral observation data also allows scientists to further study the transportation of matter and energy in the solar atmosphere, as well as solar flares. This is important since we are now experiencing Solar Cycle 25, and the Sun’s activity will ramp up until solar maximum, predicted for 2025. This high solar activity is warming Earth's upper atmosphere. China also uses its Advanced Space-based Solar Observatory (ASO-S), launched in 2022, to continuously monitor solar activity.
Video Credit: CCTV Video News Agency
Duration: 1 minute, 19 seconds
Gateway Lunar Space Station: Architectural Plans | NASA Artemis Program
The Gateway lunar space station is central to NASA-led Artemis missions to return to the Moon for "scientific discovery and to chart a path for human missions to Mars and beyond." This small space station will be a multi-purpose outpost supporting lunar surface missions, science in lunar orbit, and human exploration further into the cosmos. NASA is working with commercial and international partners to build Gateway.
Learn more about NASA's plans for the Gateway lunar space station:
Learn more about NASA's Artemis Program: https://www.nasa.gov/specials/artemis
Credit: National Aeronautics and Space Administration (NASA)
Release Date: June 13, 2024
#NASA #ESA #Space #Moon #ArtemisProgram #LunarGateway #Gateway #GatewayArchitecture #LunarSpaceStation #MoonToMars #Science #Engineering #SpaceTechnology #UnitedStates #InternationalCooperation #HumanSpaceflight #Art #Illustration #Infographics #STEM #Education
NASA's Space to Ground: Starliner Crew Flight Test | Week of June 14, 2024
NASA's Space to Ground is your weekly update on what's happening aboard the International Space Station. Nine astronauts and cosmonauts are living aboard the International Space Station following the arrival of two crewmates, veteran NASA astronauts Butch Wilmore and Suni Williams, aboard Boeing’s Starliner spacecraft on Thursday, June 6, 2024.
https://www.nasa.gov/iss-science
For more information about STEM on Station:
https://www.nasa.gov/stemonstation
Science, Technology, Engineering, Math (STEM)
Video Credit: NASA's Johnson Space Center (JSC)
Duration: 2 minutes, 38 seconds
Release Date: June 14, 2024