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Pictured from left: Roscosmos cosmonaut Kirill Peskov, NASA astronauts Nichole Ayers and Anne McClain, and JAXA (Japan Aerospace Exploration Agency) astronaut mission specialist Takuya Onishi train at SpaceX facilities in Hawthorne, California (Credit: SpaceX).

During NASA’s SpaceX Crew-10 mission to the International Space Station, which is scheduled to launch in March, select members of the four-person crew will participate in exercise and medical research aimed at keeping astronauts fit on future long-duration missions.

Crew members living and working aboard the space station have access to a designated training area outfitted with a weight-lifting system, a stationary bike, and a specialized treadmill called T2. The space station is expansive enough for bulky exercise equipment that helps preserve the health and performance of astronauts in space and when they return to Earth.

However, as NASA looks to explore beyond low Earth orbit, the agency anticipates future spacecraft will not have room for large exercise equipment, like treadmills. Since walking and running are essential parts of workouts aboard the space station, NASA does not fully understand how long-duration spaceflights without a treadmill will impact crews’ health and motor functions. Consequently, NASA researchers are adjusting astronauts’ training regimens, including eliminating the use of the treadmill in some cases, to study ways that maintain crews’ strength, fitness, bone health, and balance.

In an ongoing study called Zero T2, expedition crews are divided into three groups with different workout regimens. One group continues exercising normally, using all the available equipment aboard the orbiting complex. A second group forgoes using the treadmill, relying solely on the other available equipment. While a third group will only exercise using a new, experimental, less bulky workout machine. NASA compares the groups’ health data collected before, during, and after flight to determine if the lack of treadmill use negatively impacts the crews’ fitness, muscle performance, and recovery after return to Earth.

“A treadmill takes up a lot of mass, space, and energy. This is not great for missions to Mars where every kilogram counts,” explained NASA astronaut Matthew Dominick, who participated in the same study while serving as commander of NASA’s SpaceX Crew-8 mission in 2024. “The Zero T2 experiment is helping us figure out if we can go without a treadmill and still be healthy.”

Results of the Zero T2 study will help researchers determine how treadmill-free workouts may affect crew health, which will, in turn, help NASA build realistic exercise protocols for future deep space missions. Additionally, this investigation could support design improvements for exercise devices used to prevent or treat bone, muscle, and cardiovascular health on Earth.

Beyond the Zero T2 study, select NASA crew members will perform additional studies supported by the agency’s Human Research Program during their mission. Participating crew will conduct medical exams, provide biological samples, and document spaceflight-related injuries, among other tasks. 

“Astronauts choose which studies to participate in based on their interests,” explained Cherie Oubre, a NASA scientist at the agency’s Johnson Space Center in Houston, who helps oversee human research studies carried out aboard the space station. “The experiments address important risks and gaps associated with human spaceflight.”

One set of experiments, called CIPHER (Complement of Integrated Protocols for Human Exploration Research), will help researchers understand how multiple systems within the human body adjust to varying mission durations. CIPHER study members will complete vision assessments, cognitive tests, and MRI scans to help provide a clearer picture of how the entire body is affected by space.

“The CIPHER experiment tracks changes in the eyes, bones, heart, muscles, immune system, and more,” Oubre said. “The investigation provides the most comprehensive overview of how long-duration spaceflight affects the entire human body ever conducted, helping us advance human expeditions to the Moon, Mars, and elsewhere.”

Some crew members also will contribute to a core set of measurements called Spaceflight Standard Measures. The measurements represent how the human body and mind adapt to space travel over time and serve as a basis for other spaceflight studies like CIPHER. Additionally, crew members may provide biological samples for Omics Archive, a separate study analyzing how the body reacts to long-duration spaceflight at the molecular level.

In another study, select crew members will test a potential treatment for spaceflight-associated neuro-ocular syndrome, a condition associated with brain changes and swelling of the back of the eye. Researchers are unsure what causes the syndrome or why only certain astronauts develop it, but the shift of bodily fluids toward the head in weightlessness may play a role. Some scientists believe genetics related to how the body processes B vitamins may affect how astronauts respond to those fluid shifts. Participating crew will test whether a daily B vitamin supplement can ease or prevent the development of symptoms. They also will investigate if cuffs worn on astronauts’ thighs to keep fluids in the legs could be an effective intervention.

Upon return, the select crew members will complete surveys that record any discomfort or injuries associated with landing, such as scrapes and bruises. Results of the surveys­­ ̶ when combined with data retrieved by sensors in the vehicle­­ ̶ will help researchers catalog these injuries and improve the design of spacecraft.

Crew members began participating in the studies about a year before their mission, learning about the work and offering baseline health data. They will continue to provide data for the experiments for up to two years after returning home.

____

NASA’s Human Research Program pursues the best methods and technologies to support safe, productive human space travel. Through science conducted in laboratories, ground-based analogs, commercial missions, and the International Space Station, the program scrutinizes how spaceflight affects human bodies and behaviors. Such research drives NASA’s quest to innovate ways that keep astronauts healthy and mission-ready as human space exploration expands to the Moon, Mars, and beyond.

Learn More About Exercising in Space Astronauts aboard the International Space Station typically exercise for two hours each day. From running to cycling to weightlifting, learn how crew members complete fitness regimens in space and commit to staying healthy – even in microgravity (Credit: NASA). Explore More 2 min read NASA Prepares Gateway Lunar Space Station for Journey to Moon

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Schrödinger’s cat is scratching its head over the “topological” qubit that is causing a buzz in quantum computing. We should be, too

The stars as seen from Earth would have looked dimmer 14 million years ago, as the solar system was in the middle of passing through clouds of dust and gas

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Public health experts discuss lessons learned from the U.S. response to the COVID pandemic, on topics ranging from school closures to trust in science

Rockers Andy Frasco and the U.N. blast off at Irving Plaza.

Many people are concerned about microplastics reaching our brain—but few realize how this connects with petroleum production and the climate crisis

In an effort to conserve Voyager 2's dwindling energy and extend the spacecraft's mission, NASA has shut down another of its instruments. They did it with the Plasma Spectrometer in October 2024, and it won't be the last. In March, Voyager 2's Low-Energy Charged Particle instrument will be powered down.

The Turing award, often considered the Nobel prize of computing, has gone to two computer scientists for their work on reinforcement learning, a key technique in training artificial intelligence models

The Turing award, often considered the Nobel prize of computing, has gone to two computer scientists for their work on reinforcement learning, a key technique in training artificial intelligence models

A rare grouping of 10 celestial bodies is captured in a stunning new photo taken during last weekend’s great planetary parade.

Open Star Clusters M35 and NGC 2158

Do you see the ring?

Explore This Section

1. Science
2. Science Activation
3. 2025 Aviation Weather Mission:…

• Overview
• Learning Resources
• Science Activation Teams
• SME Map
• Opportunities
• More

 

2 min read

2025 Aviation Weather Mission: Civil Air Patrol Cadets Help Scientists Study the Atmosphere with GLOBE Clouds

The Science Activation Program’s NASA Earth Science Education Collaborative (NESEC) is working alongside the Civil Air Patrol (CAP) to launch the 2025 Aviation Weather Mission. The mission will engage cadets (students ages 11-20) and senior members to collect aviation-relevant observations including airport conditions, Global Learning and Observations to Benefit the Environment (GLOBE) Cloud observations, commercial aircraft information (including registration number and altitude), and satellite collocations provided by the NASA GLOBE Clouds team at NASA Langley Research Center. This mission results from a highly successful collaboration between NESEC and CAP as cadets and senior members collected cloud, air temperature, and land cover observations during the partial and total solar eclipses in 2023 and 2024, engaging over 400 teams with over 3,000 cadets and over 1,000 senior members in every state, Washington DC, and Puerto Rico.

The 2025 Aviation Weather Mission will take place from April through July 2025, collecting observations over two 4-hour periods while practicing additional skills, such as flight tracking, orienteering, and data management. So far, over 3,000 cadets in 46 wings (states) have signed up to participate.

Science Activation recently showed support for this mission through a letter of collaboration sent to CAP Major General Regena Aye in early February. NASA GLOBE Clouds and GLOBE Observer are part of the NASA Earth Science Education Collaborative (NESEC), which is led by the Institute for Global Environmental Strategies (IGES) and supported by NASA under cooperative agreement award number NNX16AE28A. NESEC is part of NASA’s Science Activation Portfolio. Learn more about how Science Activation connects NASA science experts, real content, and experiences with community leaders to do science in ways that activate minds and promote deeper understanding of our world and beyond: https://science.nasa.gov/learn

Cadets from the Virginia wing making cloud observations as they prepare for the 2025 Aviation Weather Mission. Share

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Mar 04, 2025

Editor NASA Climate Editorial Team Location NASA Langley Research Center

Related Terms

• Science Activation
• Clouds
• Opportunities For Students to Get Involved
• Weather and Atmospheric Dynamics

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NASA has selected Firefly Aerospace Inc. of Cedar Park, Texas, to provide the launch service for the agency’s Investigation of Convective Updrafts (INCUS) mission, which aims to understand why, when, and where tropical convective storms form, and why some storms produce extreme weather. The mission will launch on the company’s Alpha rocket from NASA’s Wallops Flight Facility in Virginia.

The selection is part of NASA’s Venture-Class Acquisition of Dedicated and Rideshare (VADR) launch services contract. This contract allows the agency to make fixed-price indefinite-delivery/indefinite-quantity awards during VADR’s five-year ordering period, with a maximum total value of $300 million across all contracts.

The INCUS mission, comprised of three SmallSats flying in tight coordination, will investigate the evolution of the vertical transport of air and water by convective storms. These storms form when rapidly rising water vapor and air create towering clouds capable of producing rain, hail, and lightning. The more air and water that rise, the greater the risk of extreme weather. Convective storms are a primary source of precipitation and cause of the most severe weather on Earth.

Each satellite will have a high frequency precipitation radar that observes rapid changes in convective cloud depth and intensities. One of the three satellites also will carry a microwave radiometer to provide the spatial content of the larger scale weather observed by the radars. By flying so closely together, the satellites will use the slight differences in when they make observations to apply a novel time-differencing approach to estimate the vertical transport of convective mass.

NASA selected the INCUS mission through the agency’s Earth Venture Mission-3 solicitation and Earth System Science Pathfinder program. The principal investigator for INCUS is Susan van den Heever at Colorado State University in Fort Collins. Several NASA centers support the mission, including Langley Research Center in Hampton, Virginia, the Jet Propulsion Laboratory in Southern California, Goddard Space Flight Center in Greenbelt, Maryland, and Marshall Space Flight Center in Huntsville, Alabama. Key satellite system components will be provided by Blue Canyon Technologies and Tendeg LLC, both in Colorado. NASA’s Launch Services Program, based at the agency’s Kennedy Space Center in Florida, manages the VADR contract.

To learn more about NASA’s INCUS mission, visit:

https://science.nasa.gov/mission/incus

-end-

Tiernan Doyle
Headquarters, Washington
202-358-1600
tiernan.doyle@nasa.gov

Patti Bielling
Kennedy Space Center, Florida
321-501-7575
patricia.a.bielling@nasa.gov

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Details Last Updated Mar 04, 2025 LocationNASA Headquarters Related Terms

• Investigation of Convective Updrafts (INCUS)
• Earth Science
• Planetary Science Division
• Science & Research
• Science Mission Directorate
• SmallSats Program
• Wallops Flight Facility

Chris Wade is a visiting vehicle integration manager for SpaceX vehicles in the International Space Station Transportation Integration Office. He plays a key role in ensuring that all vehicle requirements are on track to support SpaceX missions to the space station. Chris also manages a team of real-time mission support personnel who follow launch, docking, undocking, and splashdown operations. Read on to learn about his career with NASA and more! 

Where are you from? 

I am from Clarksdale, Mississippi. 

Tell us about your role at NASA.  

I manage horizontal integration between the SpaceX vehicle provider and the Commercial Crew and International Space Station Programs. In this role, I work to ensure all vehicle requirements will close in time to support upcoming SpaceX missions to the orbiting laboratory and achieve final certification prior to launch. Additionally, as a vehicle integration manager, I manage a team of real-time mission support personnel who follow launch, docking, undocking, and splashdown operations. 

Chris Wade in Mission Control Center at Johnson Space Center following the arrival of a visiting vehicle to the International Space Station. I enjoy telling people that we have a space station that has been in low Earth orbit with people on it for nearly 25 years.

cHRIS wade

Visiting Vehicle Integration Manager for SpaceX Vehicles

How would you describe your job to family or friends who may not be familiar with NASA?  

In my current position, I am responsible for ensuring SpaceX Dragon vehicles have met all requirements to conduct missions to the space station. 

How long have you been working for NASA?  

I have been working at Johnson Space Center for 25 years. 

What advice would you give to young individuals aspiring to work in the space industry or at NASA?  

I would advise young individuals to focus their studies on the STEM fields and work hard. I would also advise aspiring candidates to start applying for NASA internships as soon as feasible and don’t be opposed to opportunities in the contractor workforce. 

What was your path to NASA?  

My path to NASA was through the contractor workforce. I started working in space station robotic assembly analysis for Lockheed Martin directly out of college, then later became a civil servant at NASA. 

Is there someone in the space, aerospace, or science industry that motivated or inspired you to work for the space program? Or someone you discovered while working for NASA who inspires you?   

The Space Shuttle Challenger STS-51-L crew motivated me to pursue a career at NASA. I vividly remember watching the launch from an elementary classroom in Mississippi and thinking, I wish I could do something to help one day. When I got an opportunity to work at Johnson, it was a no-brainer for me to accept the offer. 

What is your favorite NASA memory?  

My favorite NASA memory is when I saw my first rocket launch, which was HTV-1 in Kagoshima, Japan. 

Chris Wade accepting a group achievement award as a member of the Latching End Effector Return Team with Johnson Space Center’s Deputy Center Director Vanessa Wyche and Center Director Mark Geyer in 2019.NASA/Robert Markowitz

What do you love sharing about station? What’s important to get across to general audiences to help them understand its benefits to life on Earth?  

I enjoy telling people that we have a space station that has been in low Earth orbit with people on it for nearly 25 years and we rotate crews of astronauts every six months. 

If you could have dinner with any astronaut, past or present, who would it be?  

I would have dinner with NASA astronaut Ron McNair. Growing up in a small southern town, my path to NASA was very similar to his. I find it fascinating how individuals from different eras can end up on similar paths in life, and I would love to have a conversation with him about the choices he made that lead to his career as an astronaut. 

Do you have a favorite space-related memory or moment that stands out to you?  

My favorite space-related memory is watching the SpaceX Demo-2 Crew Mission arrive at the International Space Station. That was the first launch of NASA astronauts from American soil since the Space Shuttle Program had ended almost 10 years prior.

What are some of the key projects you’ve worked on during your time at NASA? What have been your favorite?   

Some of the key projects I’ve worked on include: 

• Robotic assembly of the International Space Station 

• Robotic visiting vehicle capture  

• Cargo and crew dragon visiting vehicle mission certification 

Of these, my favorite was the robotic visiting vehicle capture project. For this project, I got to work with the Canadian Space Agency and develop a method of using the space station’s robotic arm to grab unmanned visiting resupply vehicles. 

Chris Wade at Kennedy Space Center in front of NASA’s Space Launch System rocket with the Orion spacecraft aboard atop a mobile launcher at Launch Complex 39B.

What are your hobbies/things you enjoy outside of work?  

Some of my favorite hobbies include running, reading, listening to audio books, and visiting family and friends back in Mississippi. 

Day launch or night launch?   

Day launch! 

Favorite space movie?  

Armageddon 

NASA “worm” or “meatball” logo?  

Worm 

Every day, we’re conducting exciting research aboard our orbiting laboratory that will help us explore further into space and bring benefits back to people on Earth. You can keep up with the latest news, videos, and pictures about space station science on the Station Research & Technology news page. It’s a curated hub of space station research digital media from Johnson and other centers and space agencies.  

Sign up for our weekly email newsletter to get the updates delivered directly to you.  

Follow updates on social media at @ISS_Research on Twitter, and on the space station accounts on Facebook and Instagram.  

6 min read

Preparations for Next Moonwalk Simulations Underway (and Underwater) Dwane Roth (right), a fourth generation grain farmer in Finney County, Kansas, stands with nephew Zion (left) in one of their corn fields. Roth’s farm became one of the first Water Technology Farms in Kansas around 2016, and he has been using OpenET data for the past few years to track evapotranspiration rates and conserve water. Photo courtesy of Dwane Roth

A NASA and U.S. Geological Survey (USGS)-supported research and development team is making it easier for farmers and ranchers to manage their water resources.

The team, called OpenET, created the Farm and Ranch Management Support (FARMS) tool, which puts timely, high-resolution water data directly in the hands of individuals and small farm operators. By making the information more accessible, the platform can better support decision-making around agricultural planning, water conservation, and water efficiency.  The OpenET team hopes this will help farmers who are working to build greater resiliency in local and regional agriculture communities.

“It’s all about finding new ways to make satellite data easier to access and use for as many people as possible,” said Forrest Melton, the OpenET project scientist at NASA’s Ames Research Center in Silicon Valley. “The goal is to empower users with actionable, science-based data to support decisions about water management across the West.”

The goal is to empower users with actionable, science-based data to support decisions about water management across the West.

Forrest melton

OpenET Project Scientist

OpenET Data Explorer Tool: The Road to FARMS

The OpenET data explorer tool centers on providing evapotranspiration data. Evapotranspiration (ET) refers to the amount of water leaving Earth’s surface and returning to the atmosphere through evaporation (from soil and surface water) and transpiration (water vapor released by crops and other plants). Evapotranspiration is an important factor in agriculture, water resource management, irrigation planning, drought monitoring, and fire risk evaluation.

The FARMS resource is the third phase of OpenET’s Data Explorer tool, launched in 2021, which uses satellite data to quantify evapotranspiration across the western U.S.

It starts with using Landsat data to measure patterns in land surface temperature and key indicators of vegetation conditions. The satellite data is combined with agricultural data, such as field boundaries, and weather data, such as air temperature, humidity, solar radiation, wind speed, and precipitation. All of these factors feed into a model, which calculates the final evapotranspiration data.

The new FARMS interface was designed to make that data easier to access, with features that meet specific needs identified by users.

“This amount of data can be complicated to use, so user input helped us shape FARMS,” said Jordan Harding, app developer and interface design leader from HabitatSeven. “It provides a mobile-friendly, map-based web interface designed to make it as easy as possible to get automated, regular reports.”

Top: A section of the 2024 annual report Roth submits to the Farm Service Agency, with hand-written annotations marking which crop will be grown that year. Bottom: Those same fields in the new OpenET FARMS interface, with a dashboard on the left displaying evapotranspiration data over the course of 2024 at monthly intervals. Each color line corresponds to the same color field on the map, showcasing how much evapotranspiration rates can differ between different crops in the same vicinity. The unique shape of the purple field (forage sorghum), is an example of a case where FARMS’ custom shape feature is helpful. Once the initial report is set up, Roth can re-run reports for the same fields at any time. NASA/OpenET

“The FARMS tool is designed to help farmers optimize irrigation timing and amounts, simplify planning for the upcoming irrigation season, and automate ET and water use reporting,” said Sara Larsen, CEO of OpenET. “All of this reduces waste, lowers costs, and informs crop planning.”

Although FARMS is geared towards agriculture, the tool has value for other audiences in the western U.S. Land managers who evaluate the impacts of wildfire can use it to evaluate burn scars and changes to local hydrology. Similarly, resource managers can track evapotranspiration changes over time to evaluate the effectiveness of different forest management plans.

New Features in FARMS

To develop FARMS, the OpenET team held listening sessions with farmers, ranchers, and resource managers. One requested function was support for field-to-field comparisons; a feature for planning irrigation needs and identifying problem areas, like where pests or weeds may be impacting crop yields.

The tool includes numerous options for drawing or selecting field boundaries, generating custom reports based on selected models and variables, and  automatically re-running reports at daily or monthly intervals.

The fine spatial resolution and long OpenET data record behind FARMS make these features more effective. Many existing global ET data products have a pixel size of over half a mile, which is too big to be practical for most farmers and ranchers. The FARMS interface provides insights at the scale of a quarter-acre per pixel, which offers multiple data points within an individual field.

“If I had told my father about this 15 years ago, he would have called me crazy,” said Dwane Roth, a fourth-generation farmer in Kansas. “Thanks to OpenET, I can now monitor water loss from my crops in real-time. By combining it with data from our soil moisture probes, this tool is enabling us to produce more food with less water. It’s revolutionizing agriculture.”

The FARMS mobile interface displays a six-year evapotranspiration report of a pear orchard owned by sixth-generation California farmer Brett Baker. The purple line in the dashboard report (left) corresponds with the field selected in purple on the map view (right), which users can toggle between using the green buttons in the top right corners. Running multi-year reports allows farmers to review historical trends.NASA/OpenET

For those like sixth-generation California pear farmer Brett Baker, the 25-year span of ET data is part of what makes the tool so valuable. “My family has been farming the same crop on the same piece of ground for over 150 years,” Baker said. “Using FARMS gives us the ability to review historical trends and changes to understand what worked and what didn’t year to year: maybe I need to apply more fertilizer to that field, or better weed control to another. Farmers know their land, and FARMS provides a new tool that will allow us to make better use of land and resources.”

According to Roth, the best feature of the tool is intangible.  “Being a farmer is stressful,” Roth said. “OpenET is beneficial for the farm and the agronomic decisions, but I think the best thing it gives me is peace of mind.”

Being a farmer is stressful. OpenET is beneficial for the farm and the agronomic decisions, but I think the best thing it gives me is peace of mind.

Dwane Roth

Fourth-Generation Kansas Grain Farmer

Continuing Evolution of FARMS

Over the coming months, the OpenET team plans to present the new tool at agricultural conferences and conventions in order to gather feedback from as many users as possible. “We know that there is already a demand for a seven-day forecast of ET, and I’m sure there will be requests about the interface itself,” said OpenET senior software engineer Will Carrara. “We’re definitely looking to the community to help us further refine that platform.”

“I think there are many applications we haven’t even thought of yet,” Baker added. “The FARMS interface isn’t just a tool; it’s an entirely new toolbox itself. I’m excited to see what people do with it.”

FARMS was developed through a public-private collaboration led by NASA, USGS, USDA, the non-profit OpenET, Inc., Desert Research Institute, Environmental Defense Fund, Google Earth Engine, HabitatSeven, California State University Monterey Bay, Chapman University, Cornell University, University of Nebraska-Lincoln, UC Berkeley and other universities, with input from more than 100 stakeholders.

For resources/tutorials on how to use FARMS, please visit: https://openet.gitbook.io/docs/additional-resources/farms

About the AuthorMilan LoiaconoScience Communication Specialist

Milan Loiacono is a science communication specialist for the Earth Science Division at NASA Ames Research Center.

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Details Last Updated Mar 04, 2025 Related Terms

• Ames Research Center's Science Directorate
• Ames Research Center
• Earth Science
• Earth Science Division
• Water & Energy Cycle

Explore More 2 min read 2025 Aviation Weather Mission: Civil Air Patrol Cadets Help Scientists Study the Atmosphere with GLOBE Clouds

The Science Activation Program’s NASA Earth Science Education Collaborative (NESEC) is working alongside the Civil…

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Missions

Humans in Space

Climate Change

Solar System

Intuitive Machines’ IM-2 mission lunar lander, Athena, entering lunar orbit on Monday, March 3. Credit: Intuitive Machines

Carrying NASA technology demonstrations and science investigations, Intuitive Machines is targeting their Moon landing no earlier than 12:32 p.m. EST on Thursday, March 6. The company’s Nova-C lunar lander is slated to land in Mons Mouton, a lunar plateau near the Moon’s South Pole, as part of NASA’s CLPS (Commercial Lunar Payload Services) initiative and Artemis campaign to establish a long-term lunar presence.

Watch live landing coverage of the Intuitive Machines 2 (IM-2) landing, hosted by NASA and Intuitive Machines, on NASA+ starting no earlier than 11:30 a.m., approximately 60 minutes before touchdown. Beginning at 11 a.m. the agency will share blog updates as landing milestones occur.

Following the Moon landing, NASA and Intuitive Machines will host a news conference from NASA’s Johnson Space Center in Houston to discuss the mission, technology demonstrations, and science opportunities that lie ahead as lunar surface operations begin.

U.S. media interested in participating in person must request accreditation by 4 p.m. Wednesday, March 5, by contacting the NASA Johnson newsroom at 281-483-5111 or jsccommu@mail.nasa.gov. A copy of NASA’s media accreditation policy is online. To ask questions via phone, all media must RSVP by 4 p.m. March 5 to the NASA Johnson Newsroom, and dial in at least 15 minutes before the briefing begins.

Full coverage of the IM-2 mission includes (all times Eastern):

Thursday, March 6

• 11:30 a.m. – Landing coverage begins on NASA+
• 12:32 p.m. – Landing
• 4 p.m. – Post-landing news conference on NASA+

After landing, NASA and Intuitive Machines leaders will participate in the news conference: 

• Nicky Fox, associate administrator, Science Mission Directorate, NASA Headquarters  
• Clayton Turner, associate administrator, Space Technology Mission Directorate, NASA Headquarters 
• Joel Kearns, deputy associate administrator for exploration, Science Mission Directorate, NASA Headquarters 
• Steve Altemus, CEO, Intuitive Machines
• Tim Crain, chief growth officer, Intuitive Machines

The IM-2 mission launched at 7:16 p.m. Feb. 26 on a SpaceX Falcon 9 rocket from Launch Complex 39A at NASA’s Kennedy Space Center in Florida. The lander is carrying NASA technology that will measure the potential presence of resources from lunar soil that could be extracted and used by future explorers to produce fuel or breathable oxygen.

In addition, a passive Laser Retroreflector Array on the top deck of the lander will bounce laser light back at any orbiting or incoming spacecraft to give future spacecraft a permanent reference point on the lunar surface. Other technologies on this delivery will demonstrate a robust cellular network to help future astronauts communicate and deploy a propulsive drone that can hop across the lunar surface to navigate its challenging terrain.

NASA continues to work with multiple American companies to deliver technology and science to the lunar surface through the agency’s CLPS initiative. This pool of companies may bid on contracts for end-to-end lunar delivery services, including payload integration and operations, launching from Earth, and landing on the surface of the Moon. NASA’s CLPS contracts are indefinite-delivery/indefinite-quantity contracts with a cumulative maximum value of $2.6 billion through 2028. The agency awarded Intuitive Machines the contract to send NASA science investigations and technology demonstrations to the Moon using its American-designed and -manufactured lunar lander for approximately $62.5 million.

Through the Artemis campaign, commercial robotic deliveries will test technologies, perform science experiments, and demonstrate capabilities on and around the Moon to help NASA explore in advance of Artemis Generation astronaut missions to the lunar surface, and ultimately crewed missions to Mars.

Learn how to watch NASA content on various platforms, including social media, and follow all events at: 

https://www.plus.nasa.gov

Let people know you’re following the mission on X, Facebook, and Instagram by using the hashtag #Artemis. You can also stay connected by following and tagging these accounts: 

X: @NASA, @NASA_Johnson, @NASAArtemis, @NASAMoon, @NASA_Technology

Facebook: NASA, NASAJohnsonSpaceCenter, NASAArtemis, NASATechnology

Instagram: @NASA, @NASAJohnson, @NASAArtemis 

For more information about the agency’s Commercial Lunar Payload Services initiative: 

https://www.nasa.gov/clps

-end-

Karen Fox / Jasmine Hopkins
Headquarters, Washington 
202-358-1600  
karen.c.fox@nasa.gov / jasmine.s.hopkins@nasa.gov

Natalia Riusech / Nilufar Ramji
Johnson Space Center, Houston 
281-483-5111 
natalia.s.riusech@nasa.gov / nilufar.ramji@nasa.gov 

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Details Last Updated Mar 04, 2025 LocationNASA Headquarters Related Terms

• Commercial Lunar Payload Services (CLPS)
• Artemis
• Earth's Moon
• Johnson Space Center
• Science Mission Directorate

3 Min Read March’s Night Sky Notes: Messier Madness

Showing a large portion of M66, this Hubble photo is a composite of images obtained at visible and infrared wavelengths. The images have been combined to represent the real colors of the galaxy.

Credits:
NASA, ESA and the Hubble Heritage (STScI/AURA)-ESA/Hubble Collaboration; Acknowledgment: Davide De Martin and Robert Gendler

by Kat Troche of the Astronomical Society of the Pacific

What Are Messier Objects?

During the 18th century, astronomer and comet hunter Charles Messier wanted to distinguish the ‘faint fuzzies’ he observed from any potential new comets. As a result, Messier cataloged 110 objects in the night sky, ranging from star clusters to galaxies to nebulae. These items are designated by the letter ‘M’ and a number. For example, the Orion Nebula is Messier 42 or M42, and the Pleiades are Messier 45 or M45. These are among the brightest ‘faint fuzzies’ we can see with modest backyard telescopes and some even with our eyes.

Stargazers can catalog these items on evenings closest to the new moon. Some even go as far as having “Messier Marathons,” setting up their telescopes and binoculars in the darkest skies available to them, from sundown to sunrise, to catch as many as possible. Here are some items to look for this season:

M44 in Cancer and M65 and 66 in Leo can be seen high in the evening sky 60 minutes after sunset. Stellarium Web

Messier 44 in Cancer: The Beehive Cluster, also known as Praesepe, is an open star cluster in the heart of the Cancer constellation. Use Pollux in Gemini and Regulus in Leo as guide stars. A pair of binoculars is enough to view this and other open star clusters. If you have a telescope handy, pay a visit two of the three galaxies that form the Leo Triplet – M65 and M66. These items can be seen one hour after sunset in dark skies.

Locate M3 and M87 rising in the east after midnight. Stellarium Web

Messier 3 Canes Venatici: M3 is a globular cluster of 500,000 stars. Through a telescope, this object looks like a fuzzy sparkly ball. You can resolve this cluster in an 8-inch telescope in moderate dark skies. You can find this star cluster by using the star Arcturus in the Boötes constellation as a guide.

Messier 87 in Virgo: Located just outside of Markarian’s Chain, M87 is an elliptical galaxy that can be spotted during the late evening hours. While it is not possible to view the supermassive black hole at the core of this galaxy, you can see M87 and several other Messier-labeled galaxies in the Virgo Cluster using a medium-sized telescope.

Locate M76 and M31 setting in the west, 60 minutes after sunset. Stellarium Web Plan Ahead

When gearing up for a long stargazing session, there are several things to remember, such as equipment, location, and provisions:

• Do you have enough layers to be outdoors for several hours? You would be surprised how cold it can get when sitting or standing still behind a telescope!
• Are your batteries fully charged? If your telescope runs on power, be sure to charge everything before you leave home and pack any additional batteries for your cell phone. Most people use their mobile devices for astronomy apps, so their batteries may deplete faster. Cold weather can also impact battery life.
• Determine the apparent magnitude of what you are trying to see and the limiting magnitude of your night sky. You can learn more about apparent and limiting magnitudes with our Check Your Sky Quality with Orion article.
• When choosing a location to observe from, select an area you are familiar with and bring some friends! You can also connect with your local astronomy club to see if they are hosting any Messier Marathons. It’s always great to share the stars!

You can see all 110 items and their locations with NASA’s Explore the Night Sky interactive map and the Hubble Messier Catalog, objects that have been imaged by the Hubble Space Telescope.