The launch of a United Launch Alliance Atlas V 551 rocket carrying the Space Test Program-3 (STP-3) mission for the U.S. Space Force’s Space and Missile Systems Center has been delayed to evaluate launch vehicle readiness. A new launch date will be released when it is available. NASA’s Laser Communications Relay Demonstration (LCRD) is a payload on STPSat-6, the primary spacecraft on STP-3, and will demonstrate laser communications technologies from geosynchronous orbit about 22,000 miles above Earth upon launch.
More than 7,300 pounds of science and research, crew supplies, and vehicle hardware are on their way to the International Space Station, following the picture-perfect launch of SpaceX’s 22nd resupply services mission. SpaceX’s upgraded Dragon spacecraft launched atop the company’s Falcon 9 rocket from Kennedy Space Center’s Launch Complex 39A in Florida, marking the first flight of this Dragon spacecraft. Liftoff occurred at 1:29 p.m. EDT.
“The vehicles that deliver our crews, they do a great job of getting our crews there safely to and from station, but their cargo capacity is very limited,” said Jeff Arend, manager of the International Space Station Office for Systems Engineering and Integration. “We couldn’t conduct all of the science we do, as well as provide for our crew members, without our cargo resupply vehicles. Our cargo flights are vital to maintaining and fully utilizing our orbiting laboratory.”
The second launch for SpaceX under NASA’s second Commercial Resupply Services contract, the mission will deliver a variety of science and research experiments, including one that could help develop better pharmaceuticals and therapies for treating kidney disease on Earth, a study of cotton root systems that could identify plant varieties that require less water and pesticides, and an experiment using bobtail squid as a model to examine the effects of spaceflight on interactions between beneficial microbes and their animal hosts.
Also included in the delivery are the first two of six new roll-out solar arrays. These will be extracted by a robotic arm and installed by astronauts during a series of spacewalks this summer.
“Over time, our solar arrays age. The first set of arrays have been up there over 20 years,” Arend said. “This augmentation is going to help us fully extend the life of the International Space Station and fully execute our full suite of research as we move forward. And probably most importantly, it allows us to power more science and research, especially in the form of future exploration systems and commercial users.”
About two-and-a-half minutes after liftoff, the Falcon 9’s first stage separated from the rocket, and a few minutes later, successfully landed on the drone ship “Of Course I Still Love You” in the Atlantic Ocean. Next, Dragon separated from the rocket completely. The spacecraft is now in orbit, traveling solo to the space station.
Dragon is slated to arrive at the orbiting laboratory on Saturday, June 5, and will autonomously dock to the space-facing port on the station’s Harmony module. Expedition 65 Flight Engineers Shane Kimbrough and Megan McArthur of NASA will monitor docking operations, and live coverage will air on NASA TV and the agency’s website beginning at 3:30 a.m. EDT. Docking is targeted for 5 a.m.
Dragon will spend more than a month attached to the space station, after which it will return to Earth with up to 5,300 pounds of research and return cargo, splashing down in the Atlantic Ocean off the eastern coast of Florida.
A SpaceX Falcon 9 rocket, topped with the company’s upgraded Dragon spacecraft, stands ready for launch at NASA Kennedy Space Center’s Launch Complex 39A in Florida. Following a prelaunch news conference held at Kennedy, NASA and SpaceX remain on track for the company’s 22nd cargo resupply mission to the International Space Station.
“Just a couple of months ago, the Crew-2 crew got on board, and now they’re waiting to receive all this science and do it, so it’s really exciting for us at SpaceX,” said Sarah Walker, director of Dragon Mission Management at SpaceX. “Thanks to NASA for your ongoing partnership; this is an exciting mission, and tomorrow is just one more example of a long history that we’re thankful for.”
Liftoff is slated to occur at 1:29 p.m. EDT Thursday, June 3, and weather officials continue to predict a 60% chance of favorable weather conditions for launch. The primary weather concerns for liftoff are the cumulus cloud rule and flight through precipitation.
“It’s Florida, it’s summertime, and that means showers and storms; the main issue would be a few of those showers that come off of the coast and head toward our launch facility,” said Mark Burger, launch weather officer with Cape Canaveral Space Force Station’s 45th Weather Squadron. “However, given that there’s quite a lot of real estate between each one of those showers, I do think there’s still a better-than-average chance that we’ll be able to thread the needle and get in a good launch opportunity for tomorrow.”
Dragon will deliver more than 7,300 pounds of science and research investigations, supplies, and hardware to the orbiting laboratory and its crew. A few of the investigations arriving in Dragon’s pressurized capsule include an experiment that could help develop better pharmaceuticals and therapies for treating kidney disease on Earth, a study of cotton root systems that could identify plant varieties that require less water and pesticides, and an experiment using bobtail squid as a model to examine the effects of spaceflight on interactions between beneficial microbes and their animal hosts.
Also included in that delivery are the first two of six new roll-out solar arrays, which will be installed during spacewalks later this month to upgrade the station’s power capabilities.
“With seven crew members on board, the team is really just knocking it out of the park,” said Joel Montalbano, program manager for NASA’s International Space Station Program Office. “The utilization and research that they’re able to do on board, the commercialization efforts, the technology developed for our lunar program – it’s really a pleasure to watch these guys. They’re excited for the mission, and they’re excited to see these two new solar arrays on board.”
About 12 minutes after launch, Dragon will separate from the Falcon 9 rocket’s second stage, starting its solo journey to the space station. The uncrewed spacecraft is scheduled to arrive at the station on Saturday, June 5. Upon its arrival, Dragon will autonomously dock to the space station’s Harmony module, with Expedition 65 Flight Engineers Shane Kimbrough and Megan McArthur of NASA monitoring operations.
After spending about one month attached to the station, Dragon will autonomously undock to begin its journey home. Upon re-entering Earth’s atmosphere, the spacecraft will splash down in the Atlantic Ocean off the eastern coast of Florida, bringing with it experiment samples and return cargo.
RamSat, a small research satellite, or CubeSat, developed by Robertsville Middle School in Oak Ridge, Tennessee, will launch aboard SpaceX’s 22nd Commercial Resupply Services (CRS-22) mission. Lifting off from NASA’s Kennedy Space Center in Florida on June 3 at 1:29 p.m. EDT, CRS-22 will carry 7,300 pounds of cargo, science, and research to the International Space Station. The RamSat CubeSat onboard is on a mission to study forest regrowth in the Gatlinburg area following the 2016 wildfires.
This satellite will use small cameras to capture pictures of growing forests and radio communication to send those images to ground control in Robertsville Middle School’s STEM Classroom. Students will operate the mission using amateur radio frequencies to listen for RamSat flying overhead, send commands to control the spacecraft, and gather image data and information about the spacecraft’s health. RamSat’s mission, which could last up to 18 months, will begin when it deploys from the space station into its own orbit 250 miles above Earth.
The concept for RamSat was created by students, Tyler Dunham and Aidan Hilliard. During its approximately five-year development, over 150 students have had the opportunity to work on the CubeSat. Robertsville Middle School was selected by NASA’s CubeSat Launch Initiative (CSLI) in 2018. CSLI enables the launch of CubeSats designed, built, and operated by students, teachers and faculty, as well as NASA centers and nonprofit organizations. Managed by NASA’s Launch Services Program, the Educational Launch of Nanosatellites (ELaNa) missions provide a deployment opportunity or ride-share launch to space for CubeSats selected by CSLI. RamSat will launch as the sole CubeSat of the agency’s 36th ELaNa mission (ELaNa 36).
Stay connected with the mission on social media by following NASA’s Launch Services Program at @NASA_LSP on Twitter and NASA LSP on Facebook.
NASA’s virtual passport program started in 2020 as a way for the public to commemorate its virtual engagement in NASA launches and milestones with the NASA Virtual Guest Program.
The stamp for the NASA SpaceX 22nd commercial resupply mission will be the eighth stamp offered through the program and the fourth stamp for a launch from Kennedy Space Center.
The Falcon-9 rocket with Cargo Dragon spacecraft will lift off from Kennedy’s Launch Complex 39A on June 3, carrying supplies and science payloads to the International Space Station.
Anyone can receive a stamp by registering to let NASA know they’re participating virtually. Those who register will receive emails with curated launch resources, notifications about NASA activities, and updates on any launch time or date changes.
Whether it’s your first stamp or your eighth, NASA hopes you’ll print, fold, and get ready to fill your virtual passport. Stamps will be emailed following docking to all virtual attendees who registered by email.
NASA and SpaceX are targeting 1:29 p.m. EDT on Thursday, June 3, for the company’s 22nd commercial resupply services mission to the International Space Station. The SpaceX Falcon 9 rocket, topped by the uncrewed Cargo Dragon spacecraft, is scheduled to lift off from Launch Complex 39A at NASA’s Kennedy Space Center in Florida.
This will be the second SpaceX mission to deliver science investigations, supplies, and equipment for NASA under the agency’s second Commercial Resupply Services contract. To date, SpaceX has completed 21 cargo resupply missions to and from the space station, providing more than 100,000 pounds of supplies and approximately 80,000 pounds of return mass.
Tune in to NASA TV and the agency’s website for live coverage, beginning Wednesday, June 2, with prelaunch activities.
The Orion spacecraft receives another iconic NASA “worm” logo ahead of the Artemis I mission. On April 28 teams with the agency’s Exploration Ground Systems and lead contractor Jacobs completed painting the retro insignia on the outboard wall of the spacecraft’s crew module adapter (CMA) – the piece of hardware connecting the crew module to the European-built service module – inside the Multi-Payload Processing Facility (MPPF) at NASA’s Kennedy Space Center in Florida.
While a decal of the historic logo was added to the underside of the CMA in September 2020, having it painted on the siding of the spacecraft will make it visible as the spacecraft is poised atop the Space Launch System (SLS) rocket, awaiting liftoff from Kennedy’s Launch Pad 39B.
The worm logo was officially introduced in 1975, retired in 1992, and then made a comeback in 2020, just as NASA entered a new era of human spaceflight. In addition to its appearance on the CMA, the bright red logo also was painted on the SLS twin solid rocket boosters in August 2020.
The Orion spacecraft and Interim Cryogenic Propulsion Stage (ICPS) – the upper stage of the rocket responsible for sending Orion on its journey around the Moon – are currently being fueled and serviced in the MPPF. Once fueling is complete, Orion will move to the Launch Abort System Facility for integration of its launch abort system, while the ICPS will move to the Vehicle Assembly Building to be stacked on the mobile launcher.
Artemis I will be the first integrated test of SLS and Orion and will pave the way for landing the first woman and first person of color on the lunar surface. The mission will be a stepping stone for deep space exploration, leading the agency’s efforts under the Artemis program for a sustainable presence on the Moon and preparing for human missions to Mars.
Click here for a video of the logo being added to the CMA.
What goes into telling the NASA story? At the agency’s Kennedy Space Center, it’s more than pointing a camera and letting it roll. Behind the cameras are dedicated men and women continuously preparing to tell captivating stories like never before. With astronauts once again launching from American soil through the Commercial Crew Program, and preparations underway to send the first woman and first person of color to the Moon as part of the Artemis program, we want you to have a first-class seat to all the action!
NASA has remained committed to capturing and sharing some of our nation’s greatest achievements with the rest of the world, and recent technology upgrades have allowed us to bring those to you in a whole new way.
Technical Upgrades for TV
A new fiber circuit, connecting video feeds from Kennedy’s historic Launch Complex 39A to the NASA News Center, provides different camera views to better showcase human spaceflight and future launches. Along with being the first launch of astronauts from U.S. soil in nearly a decade, the agency’s SpaceX Demo-2 mission in May 2020 also marked the first time this circuit was used. Additionally, teams at Kennedy implemented a live feed system just before launch, providing live footage of NASA astronauts Robert Behnken and Douglas Hurley on their 10-mile ride to the launch pad prior to liftoff.
New fiber optic communication lines allow us to bring you UHD (ultra-high definition) coverage from unique locations, such as the Launch Control Center, countdown clock, crew quarters, crew walkout, Banana Creek viewing site, and even the launch pads. With these connections in place, commentators can host launch broadcasts and briefings outdoors in 4K resolution, placing you right in the middle of the action. We’ve used exterior sets to bring you some of our biggest launches, including Boeing’s Orbital Flight Test, NASA’s Mars 2020 launch, SpaceX’s Demo-1 mission – which earned NASA and SpaceX an Emmy – as well as Demo-2, Crew-1, and Crew-2.
Additional video and visual upgrades include a UHDTV video router that supports existing HD and future UHDTV imagery, painting a crystal-clear picture of everything going on, and a character generator that TV crews can use to create and display graphics showcasing the health of the rockets in real-time. Extra circuits also provide KSCTV (Kennedy Space Center TV) personnel with UHD video feeds of launch crews and VIP guest interviews.
While the visuals are important, what you see isn’t the whole story. More partnerships and collaborations throughout the country make behind-the-scenes communication critical to providing seamless coverage. With an expanded intercom system, we’re now able to communicate with teams at remote locations such as NASA’s Johnson Space Center in Houston or SpaceX’s headquarters in Hawthorne, California. The system connects the TV producer, on-camera talent, camera operators, and master control team to bring you joint coverage from every angle.
Through these expanded capabilities, people all over the world can observe and be a part of NASA launches, missions, and scientific discoveries – an experience that is truly out of this world. This may not be rocket science, but it brings the rocket science to the palm of your hand.
NASA and SpaceX agreed to move Crew-1’s undocking and splashdown from Wednesday, April 28, following a review of forecast weather conditions in the splashdown zones off the coast of Florida, which currently predict wind speeds above the recovery criteria. Teams will continue to monitor weather conditions for splashdown ahead of Friday’s planned undocking.
The return to Earth – and activities leading up to the return – will air live on NASA Television, the NASA App, and the agency’s website.
Launch of NASA’s SpaceX Crew-2 mission with astronauts to the International Space Station is on track for Friday, April 23, at 5:49 a.m. EDT. The SpaceX Falcon 9 rocket with Crew Dragon spacecraft will lift off from Launch Complex 39A at the agency’s Kennedy Space Center in Florida.
NASA astronauts Shane Kimbrough and Megan McArthur, along with JAXA (Japan Aerospace Exploration Agency) astronaut Akihiko Hoshide, and ESA (European Space Agency) astronaut Thomas Pesquet will fly to the International Space Station for a six-month science mission. NASA TV coverage of Crew-2 launch preparations and liftoff will begin at 1:30 a.m. Friday, April 23. The Crew Dragon is scheduled to dock to the space station Saturday, April 24, at approximately 5:10 a.m. EDT.
For an April 23 launch, the U.S. Space Force 45th Weather Squadron continues to predict a 90% chance of favorable weather conditions at the launch pad for liftoff based on Falcon 9 Crew Dragon launch weather criteria. The primary weather concerns for the launch area will be flight through precipitation from isolated, low-topped coastal showers and onshore flow. Conditions continue to improve along the flight path and recovery area for the mission.
Today, Thursday, April 22, is Earth Day. To commemorate this day, NASA is hosting Earth Day in Space. Singer-songwriterShawn Mendes will join five astronauts living and working aboard the International Space to discuss how we’re all #ConnectedByEarth, asking questions from young people around the world about Earth Day, climate change and how the astronauts study Earth from space.
The event will feature NASA astronaut Mark Vande Hei, who recently arrived to the space station aboard a Soyuz, joining NASA astronauts Mike Hopkins, Victor Glover, Shannon Walker, and Japan Aerospace Exploration Agency astronaut Soichi Noguchi, the Crew-1 team who arrived last November. It will air live on NASA Television, the NASA app, and the agency’s YouTube channel and website at 11 a.m. EDT April 22.
The Crew-1 astronauts are scheduled to depart the space station at 7:05 a.m. Wednesday, April 28. They will participate in their final news conference aboard the microgravity laboratory at 12:30 p.m. EDT Monday, April 26, about their upcoming return to Earth. Media wishing to participate by telephone must call NASA’s Johnson Space Center’s newsroom at 281-483-5111 to RSVP no later than 5 p.m. Friday, April 23. The news conference will air live on NASA Television, the NASA app, and the agency’s website. Those following the briefing on social media may ask questions using #AskNASA.
Crew-1 worked on a number of experiments as part of Expedition 64 to the International Space Station, including tissue chips that mimic the structure and function of human organs to understand the role of microgravity on human health and diseases, and translate those findings to improve human health on Earth. Astronauts also grew radishes in different types of light and soils as part of ongoing efforts to produce food in space and tested a new system to remove heat from spacesuits.