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NOAA GOES-T Weather Satellite Liftoff! | ULA Atlas V
This is a United Launch Alliance (ULA) Atlas V rocket carrying the National Oceanic and Atmospheric Administration (NOAA) GOES-T satellite. Launching for NASA's Launch Services Program, it lifted off from Space Launch Complex-41 at Cape Canaveral Space Force Station in Florida, United States. Launch occurred at 4:38 p.m. EST on March 1, 2022.
GOES-T is the third satellite in the GOES-R series that will continue to help meteorologists observe and predict local weather events that affect public safety. GOES-T will be renamed GOES-18 once it reaches geostationary orbit. GOES-18 will go into operational service as GOES West to provide critical data for the U.S. West Coast, Alaska, Hawaii, Mexico, Central America, and the Pacific Ocean. The launch is managed by NASA’s Launch Services Program based at Kennedy Space Center in Florida, America’s multi-user spaceport.
NASA Stacks Artemis Moon Rocket | Kennedy Space Center
NASA's new Moon rocket, the Space Launch System, was fully stacked along with the Orion Spacecraft inside the Vehicle Assembly Building at NASA's Kennedy Space Center. This rocket will be used for the Artemis I mission, which is an uncrewed flight test of SLS and Orion around the Moon—currently scheduled to launch spring 2022.
Searching for Alien Biosignatures | NASA’s James Webb Space Telescope
One of the many goals of the James Webb Space Telescope is to help characterize the atmospheres of exoplanets using a technique called spectroscopy, which splits light into different wavelengths allowing scientists to determine the elemental makeup of a distant object.
Astrobiologists like Dr. Giada Arney from the NASA Goddard Space Flight Center are excited about this capability because it allows scientists to continue collecting evidence for possible biosignatures, or remotely observable signs of life. Some important biosignatures on Earth include oxygen and methane, which are direct results of biological processes of plants and animals. However, when looking at exoplanets, scientists must rule out other non-life methods of creating those signatures, like volcanism and atmospheric processes.
Extraordinary claims, such as finding life on another planet, must have extraordinary evidence, and while Webb will help contribute to that effort, it alone will not be enough to truly detect life on an exoplanet.
This is the National Oceanic and Atmospheric Administration (NOAA) GOES-T satellite, aboard a United Launch Alliance (ULA) Atlas V rocket. It sits on the launchpad at Space Launch Complex-41 at Cape Canaveral Space Force Station in Florida, United States. GOES-T was rolled out to the launchpad from the ULA Vertical Integration Facility (VIF) on February. 28, 2022.
GOES-T is slated to launch on March 1, 2022 at 4:38 p.m. EST.
GOES-T is the third satellite in the GOES-R series that will continue to help meteorologists observe and predict local weather events that affect public safety. GOES-T will be renamed GOES-18 once it reaches geostationary orbit. GOES-18 will go into operational service as GOES West to provide critical data for the U.S. West Coast, Alaska, Hawaii, Mexico, Central America, and the Pacific Ocean. The launch is managed by NASA’s Launch Services Program based at Kennedy Space Center in Florida, America’s multi-user spaceport.
Image Credit: United Launch Alliance/NASA/Ben Smegelsky
Axiom Space Ax-1 Mission Media Briefing: Feb. 28, 2022
Media Briefing:
First Private Astronaut Space Station Mission
Axiom Space hosted a virtual press conference at 11 a.m. EST Monday, Feb. 28, to preview the launch of Ax-1, the first all-private astronaut mission to the International Space Station (ISS). NASA, Axiom, & SpaceX Officials discussed preparations to date and answered media questions. The launch is targeted for Wednesday, March 30, 2022, at 2:46 p.m. EDT from Launch Complex 39A (LC-39A) at NASA’s Kennedy Space Center in Florida for an eight-day mission aboard the ISS. The Axiom Space crew will launch on a SpaceX Dragon. Axiom Mission 1 astronauts Michael López-Alegría, Larry Connor, Mark Pathy and Eytan Stibbe have been approved by the Multilateral Crew Operations Panel.
A Road to the Stars | European Southern Observatory
A stunning night view, taken close to the 1.54m Danish Telescope and the 3.6m telescope on the road at La Silla, shows the Milky Way above the horizon, accompanied by the Magellanic Clouds.
ESO’s 3.6m Telescope, seen here atop a hill at the center of the image, is home to HARPS, an instrument dedicated to the discovery of planets outside the Solar System via the radial velocity method. This method enables the detection of a planet by measuring the wobbling motion of the central star caused by the gravitational pull of the planet itself.
The towers on the left are the support structures of the BlackGEM telescopes, which had not been installed yet when this image was taken. BlackGEM is an array of telescopes that will search for the light emitted by the optical counterparts of the most powerful gravitational-wave sources, namely colliding neutron stars and black holes.
On the right of the image, we see the Large and Small Magellanic Clouds, two irregular dwarf galaxies orbiting the Milky Way at a distance of approximately 160,000 and 200,000 light-years, respectively. In the Mapuche culture of south-central Chile, these neighboring galaxies were known as lafken, labken or künchalabken (“the lagoons”) as well as rünanko (“the water wells”). [1]
The red filamentary emission stretching across the sky in the horizon is called airglow, which is light naturally emitted by atoms and molecules in the atmosphere through various physical and chemical processes. Despite showing up prominently in this image, airglow is invisible to the unaided eye.
[1] Source: Wenumapu. Astronomía y Cosmología Mapuche, Gabriel Pozo Menares & Margarita Canio Llanquinao
The twin galaxies NGC 4496A and NGC 4496B dominate the frame in this image from the NASA/ESA Hubble Space Telescope. Both galaxies lie in the constellation Virgo, but despite appearing side-by-side in this image they are at vastly different distances from both Earth and one another. NGC 4496A is 47 million light-years from Earth while NGC 4496B is 212 million light-years away. The enormous distances between the two galaxies mean that the two cannot interact, and they only appear to overlap owing to a chance alignment.
Chance galactic alignments such as this provide astronomers with the opportunity to delve into the distribution of dust in these galaxies. Galactic dust adds to the beauty of astronomical images—it can be seen in this image as the dark tendrils threading through both NGC 4496A and NGC 4496B—but it also complicates astronomers’ observations. Dust absorbs starlight, making stars seem dimmer and shifting their light towards longer wavelengths, a process that astronomers refer to as “reddening” (not the same thing as redshift). By carefully measuring how starlight from background galaxies is affected by dust in intervening galaxies, astronomers can map out where the dust is in the foreground galaxy’s spiral arms. The resulting “dust maps” help astronomers calibrate measurements of everything from cosmological distances to the types of stars populating galaxies.
Credit:
ESA/Hubble & NASA, T. Boeker, B. Holwerda, Dark Energy Survey, DOE, FNAL/DECam, CTIO/NOIRLab/NSF/AURA, SDSS
In March, the stars of spring lie eastward: Look for the constellations Gemini and Cancer to spot interesting celestial features like star clusters M35 and the Beehive Cluster, and NGC 3923, an oblong elliptical galaxy with an interesting ripple pattern. Keep watching for space-based views of the galaxies.
“Tonight’s Sky” is a monthly video of constellations you can observe in the night sky. The series is produced by the Space Telescope Science Institute, home of science operations for the Hubble Space Telescope, in partnership with NASA’s Universe of Learning.
National Reconnaissance Office NROL-87 Mission | SpaceX
On Wednesday, February 2, 2022, at 12:27 p.m. PST, a SpaceX Falcon 9 rocket launched the NROL-87 mission from Space Launch Complex 4 East (SLC-4E) at Vandenberg Space Force Base in California, United States.
This was the first launch and landing of this booster, which will be prepared for re-flight on another National Reconnaissance Office (NRO) mission later this year. NROL87 was NRO's 60th launch since 1996.
"When the United States needs eyes and ears in critical places where no human can reach—be it over the most rugged terrain or through the most hostile territory—it turns to the National Reconnaissance Office (NRO). The NRO is the U.S. Government agency in charge of designing, building, launching, and maintaining America’s intelligence satellites. Whether creating the latest innovations in satellite technology, contracting with the most cost-efficient industrial supplier, conducting rigorous launch schedules, or providing the highest-quality products to our customers, we never lose focus on who we are working to protect: our Nation and its citizens."
"From our inception in 1961 to our declassification to the public in 1992, we have worked tirelessly to provide the best reconnaissance support possible to the Intelligence Community (IC) and Department of Defense (DoD). We are unwavering in our dedication to fulfilling our vision: Supra Et Ultra: Above and Beyond."
Learn more about the National Reconnaissance Office (NRO):
"The U.S. Space Force defends our country and freedom to operate in space, keeping it secure, stable and accessible for military space power and new waves of innovation.
Once the new frontier, it now defines our daily lives and ways of war—on air, land and sea. From GPS to strategic warning and satellite communications, we defend the ultimate high ground."
February 25, 2022: An update on our Artemis I mission, test firing an Artemis rocket engine, and a resupply mission delivers to the space station . . . a few of the stories to tell you about–This Week at NASA!
This week marked Northrop Grumman’s 17th contracted resupply mission under the second Commercial Resupply Services contract with NASA. NASA astronaut Raja Chari commanded the Canadarm2 robotic arm to capture the U.S. Cygnus cargo craft. Robotics controllers on the ground took over shortly afterwards and remotely guided the Canadarm2 with Cygnus attached and installed it to the Unity module to begin three months of cargo operations.
Cygnus launched atop an Antares rocket at 12:40 p.m. EST Saturday, Feb. 19, 2022, from NASA’s Wallops Flight Facility in Virginia. At about 4:44 a.m., NASA astronaut Raja Chari, along with NASA astronaut Kayla Barron as backup, captured Cygnus, carrying 8,300 pounds of research, hardware, and science experiments to the International Space Station.
Each Cygnus spacecraft is named in honor of an individual who has made great contributions to human spaceflight. For the NG-17 mission, Cygnus celebrates Piers Sellers, a former NASA astronaut and renowned climate scientist.
Producer: Andre Valentine
Editor: David Anderson
Music: Universal Production Music
0:00 Introduction
0:14 Update on Preparations for Artemis I Moon Mission
0:59 Artemis Rocket Engine Test Series Continues
1:21 Commercial Mission Delivers Cargo to Space Station
1:58 The Next GOES Series Earth-Observing Satellite
2:37 60th Anniversary of Glenn’s Historic Flight on Friendship 7
Credit: National Aeronautics and Space Administration (NASA)
NASA's Mars Curiosity Rover: Intriguing New Images | JPL
Unidentified. Confirmation needed. One analysis so far: This is ". . . an extreme close-up" of ". . . very small and rather unusual concretion features. This [larger] one has been called 'Blackthorn Salt'."
NASA's Mars rover Curiosity acquired this image using its Mars Hand Lens Imager (MAHLI), located on the turret at the end of the rover's robotic arm, on February 24, 2022, Sol 3396 of the Mars Science Laboratory Mission, at 15:13:29 UTC.
Pareidolia. Dictionaries describe this term as a human tendency to see recognizable shapes in objects or data that are otherwise not familiar to us.
Learn more about pareidolia and Martian "space oddities:"
Week of February 25, 2022: NASA's Space to Ground is your weekly update on what's happening aboard the International Space Station (ISS).
This is Northrop Grumman’s 17th contracted resupply mission under the second Commercial Resupply Services contract with NASA. NASA astronaut Raja Chari commanded the Canadarm2 robotic arm to capture the U.S. Cygnus cargo craft. Robotics controllers on the ground took over shortly afterwards and remotely guided the Canadarm2 with Cygnus attached and installed it to the Unity module to begin three months of cargo operations.
Cygnus launched atop an Antares rocket at 12:40 p.m. EST Saturday, Feb. 19, 2022, from NASA’s Wallops Flight Facility in Virginia. At about 4:44 a.m., NASA astronaut Raja Chari, along with NASA astronaut Kayla Barron as backup, captured Cygnus, carrying 8,300 pounds of research, hardware, and science experiments to the International Space Station.
Each Cygnus spacecraft is named in honor of an individual who has made great contributions to human spaceflight. For the NG-17 mission, Cygnus celebrates Piers Sellers, a former NASA astronaut and renowned climate scientist.
Cygnus will remain at the International Space Station until May 2022 before it deploys CubeSats, then disposes of several thousand pounds of trash during its re-entry into Earth’s atmosphere, which will result in its destruction.
The International Space Station Program’s greatest accomplishment is as much a human achievement as it is a technological one—how best to plan, coordinate, and monitor the varied activities of the Program’s many organizations.
An international partnership of space agencies provides and operates the elements of the 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 Station:
This special rendition of Debussy's Clair de Lune (‘Moonlight’), commissioned by Artemis Music LLC and performed by internationally renowned pianist Wing-Chong Kam, was beamed into space and orbited the Earth aboard the International Space Station on July 28th, 2021, in commemoration of the timeless beauty of Claude Debussy's masterpiece and in celebration of the unity of music for all humankind. Visualizations of the Moon courtesy of the NASA Scientific Visualizations Studio, with digital 3D data captured by NASA’s Lunar Reconnaissance Orbiter (LRO).
The cosmic perspective of space inspires a cognitive shift in humans. Debussy’s Clair de Lune perhaps comes as close as possible to stirring the emotions of awe and wonder experienced by space travelers.
The universe is full of music, and we humans are learning how to use music to not only understand the science of the universe, but to grasp our place in it.
“Music is what happens in the space between the notes.”
- Claude Debussy
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Title: Clair de Lune
Composer: Claude Debussy
Performed by: Wing-Chong Kam
Recording engineer: Sierra Tse
Recording venue: Music Twelve, Hong Kong
Recording date: July 19, 2021
Publisher: Artemis Music LLC
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Background: Claude Debussy’s classic masterpiece ‘Clair de Lune’ (‘Moonlight) became the first non-fungible token (NFT) music to be sent into space and to orbit Earth aboard the International Space Station (ISS) in a test of the Artemis Space Network—a space-based commercial media platform supporting a new era of music and entertainment industry connectivity to outer space. The test occurred on Wednesday, July 28th, 2021, between approximately 12:47pm and 2:28pm Eastern Daylight Time (EDT). To perform the test, Artemis Music Entertainment Inc, a Cape Canaveral based venture founded by space entrepreneur Bob Richards and singer-songwriter Kristopher Houck, partnered with Nanoracks LLC, a leading global provider of commercial space services that provided the first permanent, privately owned and funded, commercial infrastructure to the International Space Station. The company’s “Bishop” airlock, attached to the ISS in December 2020, was the host of the Clair de Lune digital payload as it orbited Earth following transmission from the Nanoracks mission control center in Houston, Texas.
Proceeds from the space-flown recording support the empowerment of young artists, creators, and musicians.
Wing-Chong Kam: A native of Hong Kong, Wing-Chong Kam has performed in major cities on 4 continents and has collaborated with world renowned conductors and orchestras. He won the first prize of the 4th Junior Gina Bachauer International Piano Competition, the 1997 Hong Kong International Piano Competition and the second prize of the CSMTA Young Artist Piano Competition.
Kam began his piano studies at the age of 5 and has studied with distinguished pianists and pedagogues Eleanor Wong and Boris Berman. He received full scholarships and awards for his undergraduate and doctoral studies.
Kam has taught at Yale and Hong Kong Summer Music since 2002. He is currently a part-time teaching faculty at The Hong Kong Academy for Performing Arts. He has previously served as a chamber music and vocal coach as well as an adjudicator for several local and overseas competitions.
Wing-Chong Kam's profile at the Hong Kong Philharmonic Orchestra (HK Phil):
Cygnus Space Freighter Arrival | International Space Station
Northrop Grumman's Cygnus space freighter approached the International Space Station (ISS) and then was gripped by the Canadarm2 robotic arm as both spacecraft orbited 262 miles above the North Atlantic. This is Northrop Grumman’s 17th contracted resupply mission under the second Commercial Resupply Services contract with NASA. NASA astronaut Raja Chari commanded the Canadarm2 robotic arm to capture the U.S. cargo craft. Robotics controllers on the ground took over shortly afterwards and remotely guided the Canadarm2 with Cygnus attached and installed it to the Unity module to begin three months of cargo operations.
Cygnus launched atop an Antares rocket at 12:40 p.m. EST Saturday, Feb. 19, 2022, from NASA’s Wallops Flight Facility in Virginia. At about 4:44 a.m., NASA astronaut Raja Chari, along with NASA astronaut Kayla Barron as backup, captured Cygnus, carrying 8,300 pounds of research, hardware, and science experiments to the International Space Station.
Highlights of ISS research facilitated by this mission include:
- a study that examines the effects of a drug on breast and prostate cancer cells
- a new combustion facility
- an investigation from Colgate-Palmolive that will leverage the acceleration of skin aging in microgravity to help create and validate an engineered tissue model to serve as a platform for testing potential products to protect aging skin
- a demonstration of a lithium-ion secondary battery capable of safe, stable operation under extreme temperatures and in a vacuum environment
- new hydrogen sensors that will be tested for the space station’s oxygen generation system
- a system that will test hydroponic and aeroponic techniques for plant growth and will allow scientists to observe root growth through video and still images
Each Cygnus spacecraft is named in honor of an individual who has made great contributions to human spaceflight. For the NG-17 mission, Cygnus celebrates Piers Sellers, a former NASA astronaut and renowned climate scientist.
Cygnus will remain at the International Space Station until May 2022 before it deploys CubeSats, then disposes of several thousand pounds of trash during its re-entry into Earth’s atmosphere, which will result in its destruction.
NASA's Mars Curiosity Rover Spots Clouds over Mont Mercou | JPL
NASA’s Curiosity Mars rover captured these clouds just after sunset on March 19, 2021, the 3,063rd Martian day, or sol, of the rover’s mission. The image is made up of 21 individual images stitched together and color corrected so that the scene appears as it would to the human eye. The clouds are drifting over “Mont Mercou,” a cliff face that Curiosity has been studying.
The rover captured the image using its Mast Camera, or Mastcam. Malin Space Science Systems in San Diego built and operates Mastcam. A division of Caltech, NASA’s Jet Propulsion Laboratory in Southern California built the Curiosity rover and manages the Curiosity rover for the agency’s Science Mission Directorate in Washington.
The Curiosity Rover landed in Mars' Gale Crater on August 6, 2012.
"Cropped and processed to brighten the darks to have a look into this dark overhang."
Release Date: February 20, 2022
Image 5
MSL (Curiosity) - Sol 3356 - MastCam
Credit: NASA/JPL-Caltech/MSSS/Kevin M. Gill
Release Date: January 15, 2022
Image 6 (bottom, last image)
Curiosity's View From the Top of the 'Greenheugh Pediment'
Stitched together from 28 images, this view from NASA's Curiosity Mars rover was captured on April 9, 2020, the 2,729th Martian day, or sol, of the mission after the rover ascended a steep slope, part of a geologic feature called "Greenheugh Pediment." In the foreground is the crusty sandstone cap that stretches the length of the pediment, forming an overhanging ledge in some parts. At center is the "clay-bearing unit," a region with a unique story to tell about the history of water on Mount Sharp, the 3-mile-tall (5-kilometer-tall) mountain Curiosity has been ascending since 2014. In the distance at the top of the image is the floor of Gale Crater, which is 96 miles (154 kilometers) wide.
The rover's Mast Camera, or Mastcam, provided the panorama. Malin Space Science Systems in San Diego built and operates Mastcam. A division of Caltech, NASA's Jet Propulsion Laboratory in Southern California built the Curiosity rover and manages the Mars Science Laboratory mission for the agency's Science Mission Directorate in Washington.
The panorama has been white-balanced so that the colors of the rock materials resemble how they would appear under daytime lighting conditions on Earth.
The Mars 2020 Perseverance Rover landed February 18, 2021 in Jezero Crater on Mars.
The Curiosity Rover landed in Mars' Gale Crater on August 6, 2012.