View allAll Photos Tagged SpaceLaunchSystem
Engineers dressed in Apollo-style white shirts with black ties stand by a Saturn V F-1 engine in front of the Propulsion Research Development Laboratory at NASA's Marshall Space Flight Center in Huntsville Ala. Inside the laboratory, the engineers disassembled and restored parts from two other F-1 engines. Five F-1 engines launched each Saturn V rocket that sent humans to the moon in the 1960s and 1970s -- before most of the young engineers on the team were born. The engineers (left to right) are Tim Duquette, Eric Eberly, Derek O’Neal, Matt Marsh, Graham Nelson, Marty Calvert, Erin Betts, Andrew Hanks, and Van Bradford. These engineers are using one of the best, most powerful rocket engines ever designed to inspire and jumpstart the development of advanced propulsion systems needed for the evolved Space Launch System heavy-lift rocket -- a launch vehicle designed to carry 130 metric tons (143 tons) and to send humans even farther than the moon.
Image credit: NASA/MSFC
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Liftoff! NASA's Space Launch System carrying the Orion spacecraft lifts off the pad at Launch Complex 39B at the agency's Kennedy Space Center in Florida at 1:47 a.m. EST on Nov. 16, 2022. The first in a series of increasingly complex missions, Artemis I will provide a foundation for human deep space exploration and demonstrate our commitment and capability to extend human presence to the Moon and beyond. The primary goal of Artemis I is to thoroughly test the integrated systems before crewed missions by operating the spacecraft in a deep space environment, testing Orion's heat shield, and recovering the crew module after reentry, descent, and splashdown. Photo credit: Chris Coleman and Kevin Davis
The Artemis I Orion spacecraft, secured on the Space Launch System (SLS) and enclosed in its launch abort system, is in view high up in High Bay 3 of the Vehicle Assembly Building at NASA’s Kennedy Space Center in Florida on Jan. 10, 2022. Work platforms are extended around Orion and scaffolding has been secured to allow access for inspection and processing work. Artemis I will be the first integrated test of NASA’s deep space exploration systems: the Orion spacecraft, Space Launch System (SLS) rocket and the ground systems at Kennedy. In later missions, NASA will land the first woman and the first person 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. Photo credit: NASA/Corey Houston
Artist rendering of the RS-25 engines powering the liftoff of the 70-metric-ton (77-ton) lift capacity configuration SLS from the pad. The first flight test of NASA's new rocket is scheduled for 2017. (Note: artist concept updated Sept. 13, 2013)
Image credit: NASA/MSFC
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These official NASA photographs are being made available for publication by news organizations and/or for personal use printing by the subject(s) of the photographs. The photographs may not be used in materials, advertisements, products, or promotions that in any way suggest approval or endorsement by NASA. All Images used must be credited. For information on usage rights please visit: www.nasa.gov/audience/formedia/features/MP_Photo_Guidelin...
RS-25 engine No. 2059 arrives at the A-1 Test Stand at Stennis Space Center on Nov. 4, 2015. NASA is scheduled to test the engine March 10. It will mark a major milestone as the first test of a RS-25 flight engine for the new Space Launch System, being developed to carry humans deeper into space than ever before, including to an asteroid and Mars.
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These official NASA photographs are being made available for publication by news organizations and/or for personal use printing by the subject(s) of the photographs. The photographs may not be used in materials, advertisements, products, or promotions that in any way suggest approval or endorsement by NASA. All Images used must be credited. For information on usage rights please visit: www.nasa.gov/audience/formedia/features/MP_Photo_Guidelin...
Last week, NASA's Exploration Ground Systems team transported the forward assemblies of NASA's SLS (Space Launch System) solid rocket boosters in preparation for the Artemis II mission. These are the final pieces of the boosters to stack on mobile launcher 1 and will signify the completion of booster assembly at NASA's Kennedy Space Center.
Credits: NASA
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Inside High Bay 3 of the Vehicle Assembly Building at NASA’s Kennedy Space Center in Florida, the work platforms have been retracted from around the Artemis I Space Launch System on Sept. 20, 2021. All 10 levels of platforms were extended and retracted as part of an umbilical test. During the test, several umbilical arms on the mobile launcher were extended to connect to the SLS rocket. They swung away from the launch vehicle, just as they will on launch day. NASA and Jacobs teams will continue conducting tests inside the VAB before transporting the Orion spacecraft to the assembly building and stacking it atop the SLS, completing assembly of the rocket for the Artemis I mission. 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 person 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. Photo credit: NASA/Frank Michaux
On September 8, 2018, the ML moved into High Bay 3 in NASA's Vehicle Assembly Building, where it will stay 7 months for fit tests. (Pics: Michael Seeley / We Report Space)
The QM-1 test just completed. smile emoticon
#JourneytoMars #SLSFiredUp
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These official NASA photographs are being made available for publication by news organizations and/or for personal use printing by the subject(s) of the photographs. The photographs may not be used in materials, advertisements, products, or promotions that in any way suggest approval or endorsement by NASA. All Images used must be credited. For information on usage rights please visit: www.nasa.gov/audience/formedia/features/MP_Photo_Guidelin...
This artist concept shows the 130-metric-ton configuration of NASA's Space Launch System (SLS) during launch.
(Note: artist concept updated July 30, 2013)
America’s new heavy-lift rocket will be the largest launch vehicle ever built and more powerful than the Saturn V rocket that carried Apollo astronauts to the moon. The 130-metric-ton-configuration (143 tons) will lift more than 286,000 pounds and provide 20 percent more thrust than the Saturn V.
The first SLS mission — Exploration Mission 1 — in 2017 will launch an uncrewed Orion spacecraft to demonstrate the integrated system performance of the SLS rocket and spacecraft prior to a crewed flight.
Image credit: NASA/MSFC
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_____________________________________________
These official NASA photographs are being made available for publication by news organizations and/or for personal use printing by the subject(s) of the photographs. The photographs may not be used in materials, advertisements, products, or promotions that in any way suggest approval or endorsement by NASA. All Images used must be credited. For information on usage rights please visit: www.nasa.gov/audience/formedia/features/MP_Photo_Guidelin...
The RS-25 engine fires up for a 500-second test Jan. 9 at NASA's Stennis Space Center near Bay St. Louis, Mississippi. This is the first of eight tests for the development engine, which will provide NASA engineers with critical data on the engine controller unit and inlet pressure conditions.
Image credit: NASA
Read News Release:
www.nasa.gov/press/2015/january/rs-25-engine-testing-blazes-forward-for-nasas-space-launch-system/
More about SLS:
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Space Launch System Flickr album
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These official NASA photographs are being made available for publication by news organizations and/or for personal use printing by the subject(s) of the photographs. The photographs may not be used in materials, advertisements, products, or promotions that in any way suggest approval or endorsement by NASA. All Images used must be credited. For information on usage rights please visit: www.nasa.gov/audience/formedia/features/MP_Photo_Guidelin...
NASA astronaut Anne McClain poses for a photograph in front of NASA’s Artemis I Space Launch System and Orion spacecraft atop the mobile launcher on the pad at Launch Complex 39B at the agency’s Kennedy Space Center in Florida on Sept. 2, 2022. The first in a series of increasingly complex missions, Artemis I will provide a foundation for human deep space exploration and demonstrate our commitment and capability to extend human presence to the Moon and beyond. The primary goal of Artemis I is to thoroughly test the integrated systems before crewed missions by operating the spacecraft in a deep space environment, testing Orion’s heat shield, and recovering the crew module after reentry, descent, and splashdown. In later missions, NASA will land the first woman and the first person 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. Credit: NASA/Steven Seipel
The crawler-transporter, driven by engineers, has moved underneath the Artemis I Space Launch System with the Orion spacecraft atop on the mobile launcher inside the Vehicle Assembly Building at NASAâs Kennedy Space Center in Florida on June 3, 2022. The crawler will carry the Artemis I stack to Launch Complex 39B for a wet dress rehearsal test ahead of the Artemis I launch. 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 person 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. Photo credit: NASA/Frank Michaux
The Orion spacecraft for NASA’s Artemis I mission, fully assembled with its launch abort system, is lowered on top of the Space Launch System (SLS) rocket in High Bay 3 of the Vehicle Assembly Building at Kennedy Space Center in Florida on Oct. 20, 2021. The stacking of Orion on top of the SLS completes assembly for the Artemis I flight test. Teams will begin conducting a series of verification tests ahead of rolling out to Launch Complex 39B for the Wet Dress Rehearsal. Artemis I will be an uncrewed test flight of the Orion spacecraft and Space Launch System rocket as an integrated system ahead of crewed flights to the Moon. Under Artemis, NASA aims to land the first woman and first person of color on the Moon and establish sustainable lunar exploration. Photo credit: NASA/Frank Michaux
The left-hand booster forward assembly for NASA’s Space Launch System is lowered by crane onto the center forward segment on the mobile launcher (ML) in High Bay 3 of the Vehicle Assembly Building at Kennedy Space Center in Florida on March 1, 2021. Exploration Ground Systems and contractor Jacobs teams have been stacking the twin five-segment boosters on the ML over a number of weeks. When the core stage arrives, it will join the boosters on the mobile launcher, followed by the interim cryogenic propulsion stage and Orion spacecraft. Manufactured by Northrop Grumman in Utah, the twin boosters provide more than 75 percent of the total SLS thrust at launch. Marshall Space Flight Center in Huntsville, Alabama, manages the SLS. Under the Artemis program, NASA will land the first woman and the next man on the Moon. The first in a series of increasingly complex missions, Artemis I will test the Orion spacecraft and SLS as an integrated system ahead of crewed flights to the Moon. Photo credit: NASA/Isaac Watson
A liquid oxygen tank confidence article for NASA's new rocket, the Space Launch System, completes final welding on the Vertical Assembly Center at Michoud Assembly Facility in New Orleans.
A liquid oxygen tank confidence article for NASA's new rocket, the Space Launch System, completes final welding on the Vertical Assembly Center at Michoud Assembly Facility in New Orleans.
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These official NASA photographs are being made available for publication by news organizations and/or for personal use printing by the subject(s) of the photographs. The photographs may not be used in materials, advertisements, products, or promotions that in any way suggest approval or endorsement by NASA. All Images used must be credited. For information on usage rights please visit: www.nasa.gov/audience/formedia/features/MP_Photo_Guidelin...
A half Moon illuminates the sky after the launch of NASA’s Space Launch System and Orion spacecraft on Artemis I from Launch Complex 39B at Kennedy Space Center in Florida on Nov. 16, 2022. Liftoff was at 1:47 a.m. EST. The first in a series of increasingly complex missions, Artemis I will provide a foundation for human deep space exploration and demonstrate our commitment and capability to extend human presence to the Moon and beyond. The primary goal of Artemis I is to thoroughly test the integrated systems before crewed missions by operating the spacecraft in a deep space environment, testing Orion’s heat shield, and recovering the crew module after reentry, descent, and splashdown. Photo credit: NASA/Isaac Watson
Teams with NASA’s Exploration Ground Systems and contractor Jacobs rotate the Space Launch System (SLS) core stage – the largest part of the rocket – into a vertical position in preparation for its move to High Bay 3 in the Vehicle Assembly Building, where it will be placed atop the mobile launcher in between the twin solid rocket boosters, at NASA’s Kennedy Space Center in Florida on June 11, 2021. The 188,000-pound core stage, with its four RS-25 engines, will provide more than 2 million pounds of thrust during launch and ascent, and coupled with the boosters, will provide more than 8.8 million pounds of thrust to send the Artemis I mission to space. Under the Artemis program, NASA will land the first woman and first person of color on the Moon, as well as establish a sustainable presence on the lunar surface in preparation for human missions to Mars. Photo credit: NASA/Cory Huston
A view of Moonikin “Campos” secured in a seat inside the Artemis I Orion crew module atop the Space Launch System rocket in High Bay 3 of the Vehicle Assembly Building at NASA’s Kennedy Space Center in Florida on Aug. 3, 2022. Artemis I will provide a foundation for human deep space exploration and demonstrate NASA’s capability to extend human present to the Moon and beyond. The primary goal of Artemis I is to thoroughly test the Space Launch System rocket and Orion spacecraft’s integrated systems before crewed missions. Under Artemis, NASA aims to land the first woman and first person of color on the Moon and establish sustainable lunar exploration. Photo credit: NASA/Frank Michaux
Teams with NASA’s Exploration Ground Systems and contractor Jacobs rotate the Space Launch System (SLS) core stage – the largest part of the rocket – into a vertical position in preparation for its move to High Bay 3 in the Vehicle Assembly Building, where it will be placed atop the mobile launcher in between the twin solid rocket boosters, at NASA’s Kennedy Space Center in Florida on June 11, 2021. The 188,000-pound core stage, with its four RS-25 engines, will provide more than 2 million pounds of thrust during launch and ascent, and coupled with the boosters, will provide more than 8.8 million pounds of thrust to send the Artemis I mission to space. Under the Artemis program, NASA will land the first woman and first person of color on the Moon, as well as establish a sustainable presence on the lunar surface in preparation for human missions to Mars. Photo credit: NASA/Cory Huston
NASA’s Artemis I Space Launch System and Orion spacecraft atop the mobile launcher are in view on the pad at Launch Complex 39B at NASA’s Kennedy Space Center in Florida on Nov. 15, 2022. Liftoff was at 1:47 a.m. EST on Nov. 16. The first in a series of increasingly complex missions, Artemis I will provide a foundation for human deep space exploration and demonstrate our commitment and capability to extend human presence to the Moon and beyond. The primary goal of Artemis I is to thoroughly test the integrated systems before crewed missions by operating the spacecraft in a deep space environment, testing Orion’s heat shield, and recovering the crew module after reentry, descent, and splashdown. Photo credit: Chris Coleman and Kevin Davis
More than 7,000 people attended NASA Marshall Space Center and Downtown Huntsville, Inc.’s third annual celebration of NASA and the community June 18. This year, the event moved to Huntsville’s Big Spring Park, becoming ‘NASA in the Park.’ The celebration featured fun for all ages, live music performed by Marshall team members and a special appearance by NASA astronaut Don Thomas.
Click here to view more photos on Marshall's Flickr Archive.
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These official NASA photographs are being made available for publication by news organizations and/or for personal use printing by the subject(s) of the photographs. The photographs may not be used in materials, advertisements, products, or promotions that in any way suggest approval or endorsement by NASA. All Images used must be credited. For information on usage rights, click here.
Friday morning sunrise from Kennedy Space Center Visitor Complex, looking out at the Space Launch System and Orion standing tall at LC-39B.
An unmanned Orion spacecraft, part of the Artemis I mission, will orbit the moon and then return to Earth after about a month and a half. If everything goes as planned, a future mission could land astronauts on the moon in 2025. The mission lifted off from Launch Complex 39B at the Kennedy Space Center aboard the Space Launch System (SLS) rocket, which has been under development at NASA since 2011.
In this view looking down in High Bay 3 inside the Vehicle Assembly Building on Saturday, Jan. 17, 2026, the work platforms are retracted around NASA’s Artemis II SLS (Space Launch System) rocket and Orion spacecraft in preparation for rollout to Launch Complex 39B at NASA’s Kennedy Space Center in Florida. NASA’s Artemis II flight test will take Commander Reid Wiseman, Pilot Victor Glover, and Mission Specialist Christina Koch from NASA, and Mission Specialist Jeremy Hansen from the CSA (Canadian Space Agency), around the Moon and back to Earth no later than no later than April 2026. Photo credit: NASA/Frank Michaux
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More than 7,000 people attended NASA Marshall Space Center and Downtown Huntsville, Inc.’s third annual celebration of NASA and the community June 18. This year, the event moved to Huntsville’s Big Spring Park, becoming ‘NASA in the Park.’ The celebration featured fun for all ages, live music performed by Marshall team members and a special appearance by NASA astronaut Don Thomas.
Click here to view more photos on Marshall's Flickr Archive.
_____________________________________________
These official NASA photographs are being made available for publication by news organizations and/or for personal use printing by the subject(s) of the photographs. The photographs may not be used in materials, advertisements, products, or promotions that in any way suggest approval or endorsement by NASA. All Images used must be credited. For information on usage rights, click here.
Let's give a round of applause to our #NASAMichoud and NASA_SLS videographers for winning four NASA "Videographer of the Year" awards!👏
📹 Check out the rest of the winners here: https://go.nasa.gov/43mPaeB
#NASAMarshall #Space #NASA #photography #NASAMichoud #SpaceLaunchSystem #SLS
Credit: NASA
In this aerial view, the massive 212-foot long Space Launch System (SLS) core stage is shown being offloaded from the Pegasus Barge on April 29, 2021, after arriving at NASA’s Kennedy Space Center in Florida. Teams with Exploration Ground Systems (EGS) and lead contractor Jacobs will transfer the rocket stage to the center’s Vehicle Assembly Building to prepare it for integration with the completed stack of solid rocket boosters atop the mobile launcher ahead of the Artemis I launch. The first in a series of increasingly complex missions, Artemis I will test SLS and Orion as an integrated system prior to crewed flights to the Moon. Photo credit: NASA/Jamie Peer and Mike Downs
NASA and Northrop Grumman technicians in Promontory, Utah, have applied insulation to the final booster motor segment for the second flight of NASA's deep space rocket, the Space Launch System, and NASA's Orion spacecraft. The insulation, applied to the interior of each steel motor segment, protects the casing from the heat generated by the propellant during launch and flight. The twin, five-segment solid rocket motor boosters for SLS are the largest, most powerful solid propellant boosters ever built. SLS uses both liquid and solid propellant to provide the thrust needed to launch the vehicle and send it to space. The boosters provide more than 75% of the total thrust at launch and into the first two minutes of flight. Five motor segments are stacked together to create a single, very large motor for each booster. The manufacture and checkout of all 10 motor segments for the first test flight of SLS and Orion were completed earlier this year.
NASA is charged to get American astronauts to the surface of the Moon by 2024. SLS and the Orion are our backbone for deep space exploration. SLS and Orion will launch from NASA's Kennedy Space Center in Florida on missions to the Gateway in lunar orbit. NASA is targeting 2022 to test SLS with astronauts aboard the Orion spacecraft.
Image Credit: Northrop Grumman Photo
Marshall engineers installed the injector in a subscale RS-25 engine model, and the engine was hot-fired exposing the part to temperatures of nearly 6,000 degrees Fahrenheit while burning liquid oxygen and gaseous hydrogen. A series of tests was completed in Test Stand 115 in the East Test Area at NASA's Marshall Space Flight Center in Huntsville, Ala.
Image credit: NASA/MSFC
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Space Launch System Flickr photoset:
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These official NASA photographs are being made available for publication by news organizations and/or for personal use printing by the subject(s) of the photographs. The photographs may not be used in materials, advertisements, products, or promotions that in any way suggest approval or endorsement by NASA. All Images used must be credited. For information on usage rights please visit: www.nasa.gov/audience/formedia/features/MP_Photo_Guidelin...
A scale model of the Space Launch System (SLS) is tested in an 11-by-11-foot transonic wind tunnel at NASA's Ames Research Center. The tests will be used to enhance the design and stability of the SLS -- essential to America’s future in human spaceflight and scientific exploration of deep space.
Image credit: NASA/ARC/Dominic Hart
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_____________________________________________
These official NASA photographs are being made available for publication by news organizations and/or for personal use printing by the subject(s) of the photographs. The photographs may not be used in materials, advertisements, products, or promotions that in any way suggest approval or endorsement by NASA. All Images used must be credited. For information on usage rights please visit: www.nasa.gov/audience/formedia/features/MP_Photo_Guidelin...
NASA completed the sixth of 12 scheduled RS-25 engine certification tests in a critical series for future flights of the agency’s SLS (Space Launch System) rocket as engineers conducted a full-duration hot fire Jan. 27 at NASA’s Stennis Space Center near Bay St. Louis, Mississippi.
The current series builds on previous hot fire testing conducted at NASA Stennis to help certify production of new RS-25 engines by lead contractor Aerojet Rocketdyne, an L3 Harris Technologies company. The new engines will help power NASA’s SLS rocket on future Artemis missions to the Moon and beyond, beginning with Artemis V.
Image credit: NASA/Danny Nowlin
#NASA #NASAMarshall #sls #spacelaunchsystem #nasasls #exploration #rocket #artemis #ssc #NASAStennis
NASA’s Space Launch System core stage for the Artemis I mission is shown inside the transfer aisle of the Vehicle Assembly Vehicle Assembly Building at Kennedy Space Center in Florida, after it was transported from the agency’s Stennis Space Center in Mississippi aboard the Pegasus barge, April 29, 2021. Teams with Exploration Ground Systems and lead contractor Jacobs will prepare the 212-foot-tall core stage for integration with the completed stack of the twin solid rocket boosters atop the mobile launcher ahead of the Artemis I launch. Photo credit: NASA/Kim Shiflett
The Artemis II astronauts, set to launch on a trip around the Moon next year, stand in front of the Orion spacecraft’s European Service Module-2 (ESM-2) that will provide everything they need to thrive on their voyage to Earth’s natural satellite.
From left, the skilled crew is composed of NASA’s Victor Glover, Canadian Space Agency’s Jeremy Hansen, and NASA’s Christina Koch and Reid Wiseman. Their collective experience underscores the collaborative essence of space exploration, as they prepare for the challenges of deep space travel and return.
The European Service Module-2 will provide crucial life support and necessary resources – water, air, electricity, communications and power – for their lunar voyage, ensuring their well-being and mission success. The made-in-Europe powerhouse encapsulates years of ingenuity and safeguards the crew from the harsh space environment.
Later this year, it will be connected through the Crew Module Adapter (CMA) – the doughnut shaped structure which can be seen on top of ESM-2 in the picture – to the crew capsule at the Kennedy Space Center in Florida, USA, to form the complete Orion spacecraft for the journey forward to the Moon.
Following the tradition of previous missions, the Artemis II crew exemplifies international partnership. United by purpose, they stand as a testament to humankind's pursuit of knowledge and adventure beyond our planet. With the European Service Module as their stalwart companion, the Artemis II astronauts are poised to etch their mark in the history of space exploration.
Credits: ESA–M. Cowan
Liftoff! NASA's Space Launch System carrying the Orion spacecraft lifts off the pad at Launch Complex 39B at the agency's Kennedy Space Center in Florida at 1:47 a.m. EST on Nov. 16, 2022. The first in a series of increasingly complex missions, Artemis I will provide a foundation for human deep space exploration and demonstrate our commitment and capability to extend human presence to the Moon and beyond. The primary goal of Artemis I is to thoroughly test the integrated systems before crewed missions by operating the spacecraft in a deep space environment, testing Orion's heat shield, and recovering the crew module after reentry, descent, and splashdown. Photo credit: Chris Coleman and Kevin Davis
Liftoff! NASA’s Space Launch System carrying the Orion spacecraft lifts off the pad at Launch Complex 39B at the agency’s Kennedy Space Center in Florida at 1:47 a.m. EST on Nov. 16, 2022. The first in a series of increasingly complex missions, Artemis I will provide a foundation for human deep space exploration and demonstrate our commitment and capability to extend human presence to the Moon and beyond. The primary goal of Artemis I is to thoroughly test the integrated systems before crewed missions by operating the spacecraft in a deep space environment, testing Orion’s heat shield, and recovering the crew module after reentry, descent, and splashdown. Photo credit: Chris Coleman and Kevin Davis
NASA's Pegasus barge transported the first flight core stage for NASA's Space Launch System rocket from the agency's Michoud Assembly Facility in New Orleans to Stennis Space Center in Mississippi on January 12. The stage which will be used for the first Artemis mission to the Moon rolled out from the Pegasus barge at the B-2 Test Stand. Once lifted and installed on the stand, the stage will undergo a series of integrated tests prior to its Artemis I flight. For a downloadable version of the video, go to
Video credit: NASA
This is the fully-assembled NASA Space Launch System (SLS) and Orion capsule, seen outside the Vehicle Assembly Building at Kennedy Space Center for the first time on March 17, 2022. Here the rocket is being transported to Launch Complex 39B, where it will undergo tests and a "wet dress rehearsal" in advance of the Artemis 1 mission.
For its inaugural launch, currently scheduled for mid-2022, the SLS will send the Orion capsule on a journey around the Moon and back.
The 4-mile journey to the pad took approximately 11-hours; The aptly named Crawler Transporter crawls along at about .8mph (1.28kph).
#HappyNewYearMarshall
NASA’s Super Guppy, a wide-bodied cargo aircraft, landed at the Redstone Army Airfield near Huntsville, Ala. on March 26 with a special delivery: an innovative composite rocket fuel tank. The tank was manufactured at the Boeing Developmental Center in Tukwila, Wash. The tank will be unloaded from the Super Guppy, which has a hinged nose that opens and allows large cargos like the tank to be easily unloaded. After the tank is removed from the Super Guppy, it will be inspected and prepared for testing at NASA’s Marshall Space Flight Center in Huntsville, Ala. The composite tank project is part of the Game Changing Development Program and NASA's Space Technology Mission Directorate.
The mobile launcher with NASA’s Space Launch System (SLS) rocket and Orion spacecraft rolls out of the Vehicle Assembly Building’s High Bay 3 to Launch Complex 39B on Tuesday, Aug. 16, 2022, at NASA’s Kennedy Space Center in Florida. As part of the agency’s Artemis I flight test, the fully stacked and integrated SLS rocket and Orion spacecraft is scheduled to liftoff on Monday, Aug. 29. The first in a series of increasingly complex missions, Artemis I will provide a foundation for human deep space exploration and demonstrate our commitment and capability to extend human presence to the Moon and beyond. The primary goal of Artemis I is to thoroughly test the integrated systems before crewed missions by launching Orion atop the SLS rocket, operating the spacecraft in a deep space environment, testing Orion’s heat shield, and recovering the crew module after reentry, descent, and splashdown. Photo credit: NASA/Ben Smegelsky
Several big pieces of hardware for the SLS rocket have rolled out recently, and this progress wouldn't be possible without the dedication of our workforce.
As we celebrate #LaborDay today, we thank all of the dedicated team members who work hard toward the future of deep space exploration.
Have a safe and happy holiday!
#Artemis #NASAMarshall #Space #NASASLS #NASA #NASAMichoud #NASAKennedy #PegasusBarge #LVSA #Artemis #ArtemisII #LaborDay
NASA's Space Launch System (SLS) rocket and Orion spacecraft, standing atop the mobile launcher, arrive at Launch Pad 39B at the agency's Kennedy Space Center in Florida on March 18, 2022, for a wet dress rehearsal ahead of the uncrewed Artemis I launch. In view is the crawler-transporter 2, which carried the Artemis I stack from the Vehicle Assembly Building to the pad - a 4.2-mile journey that took nearly 11 hours to complete. Artemis I will test SLS and Orion as an integrated system prior to crewed flights to the Moon. Through Artemis, NASA will land the first woman and the first person of color on the lunar surface, paving the way for a long-term lunar presence and serving as a steppingstone on the way to Mars. Photo credit: NASA/Kim Shiflett
NASA and Boeing technicians have begun the second of three major activities to join the large structural parts of the core stage for NASA's deep space rocket, the Space Launch System. When this task is completed, four of the five major core stage structures -- most of the massive 212-foot stage-- will be assembled. Boeing and NASA will add the engine section and the four RS-25 engines to complete assembly of the core stage. This stage and its four RS-25 engines will produce 2 million pounds of thrust to help send the Artemis 1 Mission, the first integrated flight of SLS and the Orion spacecraft to the Moon. Crews at NASA's Michoud Assembly Facility in New Orleans moved the liquid hydrogen tank to the final assembly area at the facility to horizontally connect the massive propellant tank to the top of the core stage, which is made up of the forward skirt, the liquid oxygen tank and the intertank. They moved the forward structure to the final assembly area earlier this spring. Together, the forward structure combined with the liquid hydrogen tank is approximately 190-feet-long, and thus, makes up most of the core stage. The entire core stage will be the largest rocket stage NASA has ever built since manufacturing the Saturn V rocket stages in the same Michoud rocket factory.
NASA is working to land the first woman and next man on the Moon by 2024. SLS is part of NASA's backbone for deep space exploration, along with Orion and the Gateway in orbit around the Moon. SLS is the only rocket that can send Orion, astronauts and supplies to the Moon on a single mission.
Image credit: NASA/Eric Bordelon
Teams with NASA's Exploration Ground Systems and contractor Jacobs lower the Space Launch System (SLS) core stage - the largest part of the rocket - onto the mobile launcher, in between the twin solid rocket boosters, inside High Bay 3 of the Vehicle Assembly Building at NASA's Kennedy Space Center in Florida on June 12, 2021. The 188,000-pound core stage, with its four RS-25 engines, will provide more than 2 million pounds of thrust during launch and ascent, and coupled with the boosters, will provide more than 8.8 million pounds of thrust to send the Artemis I mission to space. Under the Artemis program, NASA will land the first woman and first person of color on the Moon, as well as establish a sustainable presence on the lunar surface in preparation for human missions to Mars. Photo credit: NASA/Cory Huston
The initial configuration of NASA's Space Launch System will be able to launch payloads in a five-meter-class fairing compatible with current spacecraft designs.
(Concept updated Jan. 14, 2014)
Image credit: NASA
Read more:
www.nasa.gov/exploration/systems/sls/multimedia/gallery/s...
More about SLS:
www.nasa.gov/exploration/systems/sls/index.html
More SLS Photos:
www.nasa.gov/exploration/systems/sls/multimedia/gallery/S...
Space Launch System Flickr photoset:
www.flickr.com/photos/28634332@N05/sets/72157627559536895/
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These official NASA photographs are being made available for publication by news organizations and/or for personal use printing by the subject(s) of the photographs. The photographs may not be used in materials, advertisements, products, or promotions that in any way suggest approval or endorsement by NASA. All Images used must be credited. For information on usage rights please visit: www.nasa.gov/audience/formedia/features/MP_Photo_Guidelin...
The RS-25 engine fires up for a 500-second test Jan. 9 at NASA's Stennis Space Center near Bay St. Louis, Mississippi. This is the first of eight tests for the development engine, which will provide NASA engineers with critical data on the engine controller unit and inlet pressure conditions.
Image credit: NASA
Read News Release:
www.nasa.gov/press/2015/january/rs-25-engine-testing-blazes-forward-for-nasas-space-launch-system/
More about SLS:
www.nasa.gov/exploration/systems/sls/index.html
More SLS Photos:
www.nasa.gov/exploration/systems/sls/multimedia/gallery/S...
Space Launch System Flickr album
www.flickr.com/photos/28634332@N05/sets/72157627559536895/
______________________________
These official NASA photographs are being made available for publication by news organizations and/or for personal use printing by the subject(s) of the photographs. The photographs may not be used in materials, advertisements, products, or promotions that in any way suggest approval or endorsement by NASA. All Images used must be credited. For information on usage rights please visit: www.nasa.gov/audience/formedia/features/MP_Photo_Guidelin...
Standing atop the mobile launcher, NASA's Space Launch System (SLS) rocket and Orion spacecraft can be seen at Launch Pad 39B at the agency's Kennedy Space Center in Florida on March 18, 2022. The Artemis I stack was carried from the Vehicle Assembly Building to the pad - a 4.2-mile journey that took nearly 11 hours to complete - by the agency's crawler-transporter 2 for a wet dress rehearsal ahead of the uncrewed launch. Artemis I will test SLS and Orion as an integrated system prior to crewed flights to the Moon. Through Artemis, NASA will land the first woman and the first person of color on the lunar surface, paving the way for a long-term lunar presence and serving as a steppingstone on the way to Mars. Photo credit: NASA/Kim Shiflett
Teams retracted the first two of 20 platforms surrounding the Space Launch System rocket and Orion spacecraft that allow work on the integrated system in High Bay 3 inside the Vehicle Assembly Building at NASA’s Kennedy Space Center in Florida. The first platforms to be retracted – which move like hydraulic kitchen drawers when moved – are those located near the launch abort system on Orion in preparation for rollout to Launch Complex 39B for the Artemis I wet dress rehearsal.
This artist concept shows the 70-metric-ton configuration of NASA's Space Launch System (SLS) during flight. (Note: artist concept updated July 30, 2013)
The Space Launch System, or SLS, will be designed to carry the Orion Multi-Purpose Crew Vehicle, as well as important cargo, equipment and science experiments to Earth's orbit and destinations beyond.
America’s new heavy-lift rocket will be the largest launch vehicle ever built and more powerful than the Saturn V rocket that carried Apollo astronauts to the moon. The 70-metric-ton configuration (77 tons) will lift more than 154,000 pounds and will provide 10 percent more thrust than the Saturn V rocket. The 130-metric-ton-configuration (143 tons) will lift more than 286,000 pounds and provide 20 percent more thrust than the Saturn V.
The first SLS mission — Exploration Mission 1 — in 2017 will launch an uncrewed Orion spacecraft to demonstrate the integrated system performance of the SLS rocket and spacecraft prior to a crewed flight.
Image credit: NASA/MSFC
More about SLS:
www.nasa.gov/exploration/systems/sls/index.html
More SLS Photos:
www.nasa.gov/exploration/systems/sls/multimedia/gallery/S...
Space Launch System Flickr photoset:
www.flickr.com/photos/28634332@N05/sets/72157627559536895/
_____________________________________________
These official NASA photographs are being made available for publication by news organizations and/or for personal use printing by the subject(s) of the photographs. The photographs may not be used in materials, advertisements, products, or promotions that in any way suggest approval or endorsement by NASA. All Images used must be credited. For information on usage rights please visit: www.nasa.gov/audience/formedia/features/MP_Photo_Guidelin...