Women Launching Women: How NASA Mentors Artemis Generation

On July 16, 1969, the Apollo 11 mission lifted off on a Saturn V rocket from NASA’s Kennedy Space Center in Florida. Crowds gathered with their eyes craned toward the sky, as NASA set out to make history with their next giant leaplanding astronauts on the Moon. 

One historical member watching the launch, JoAnn Morgan, instrumentation controller for Apollo 11, and the only female in the firing room inside NASA’s Launch Control Center.

Photo show members of Kennedy Space Center team inside the Launch Control Center to watch Apollo 11 liftoff. JoAnn Morgan is seated to the left of center in third row.
Members of the Kennedy Space Center government-industry team rise from their consoles within the Launch Control Center to watch the Apollo 11 liftoff through a window. JoAnn Morgan is seated to the left of center in the third row. Photo credit: NASA

“I look at that picture of the firing room where I’m the only woman. And I hope all the pictures now that show people working on the missions to the Moon and onto Mars, in rooms like mission Control or launch Control or wherever — that there will always be several women. I hope that photos like the ones I’m in don’t exist anymore,” said Morgan. 

NASA is hard at work 55 years later returning astronauts to the Moon with the Artemis campaign which will land the first woman, first person of color, and its first international partner astronaut on the Moon – and establish the first long-term presence on the Moon. With these new missions supporting lunar exploration, Morgan’s hope for several women in the STEM field is coming true.  

Today, in that very same room where Morgan once sat as the only female engineer, dozens of women sit on console preparing to launch the mighty SLS (Space Launch System) rocket and Orion spacecraft back to the Moon for Artemis II. The room itself is not only full of a diverse group of engineers, but leading the team to liftoff is NASA’s first female Launch Director, Charlie Blackwell Thompson.

Photo shows women of Artemis launch team wearing green for
The women of Artemis launch team pose for a photo wearing green for “go” inside the Launch Control Center at NASA’s Kennedy Space Center in Florida. Photo credit: NASA/Kim Shiflett

This Women’s History Month, female leaders within the space industry met at NASA Kennedy to reflect on what mentorship means to them.  

“JoAnn, you did show us, whether you knew it at the time or not, that we belong in this room,” Blackwell-Thompson said. “Because of the work you did all those years ago, you made it possible for me.” 

The leaders meeting shared their thoughts on ways women can lead in the space industry. 

  1. Sharing is caring 
    Sharing is the basis of mentorship. Share your experiences either as a guiding tool or a lesson learned.
  2. An attitude of gratitude  
    We grow stronger when we grow together. Shine the light their way and give them a moment in the sun. A sense of gratitude and encouragement amongst others can make a huge difference in the effectiveness of the team.
  3. Stepping up to the plate  
    How can you be a person of action?  
  4. Growing pains are good  
    Just like physical growing pains, experiencing uncomfortableness in your career can be a sign of growth. Outperformance will feel uncomfortable. Trying something new will feel uncomfortable. Get comfortable being uncomfortable.
  5. Define how others view you  
    Deliver on your word. Do the right thing when nobody is looking. Be the person you would want on your team.
  6. Leadership is not defined by your title 
    Rise to the challenge within your everyday activities. Inspire those around you and offer a helping hand when it is needed. You can embody all of the characteristics of someone who leads long before you have the words manager, supervisor, or director in your official title.
  7. Identify your board of advisors  
    Just like any company trying to grow, your career deserves a board of advisors to grow. Create a space where you can talk your career navigation. Your board of advisors can change over periods of time and take shape in formal or informal relationships. 
  8. Bet on yourself 
    At every stage in your career, you hold power. Ask for a new challenge, the power to say no, and the power to ask for help.  
  9. Surround yourself with the best of the best  
    Teams can only be the best of the best when they include diverse thought. Be mindful of who you can collaborate with that will bring ideas unique from yours.  
  10. Make your mistakes matter   
    What did you learn? What can you teach others? How will this mistake lead you in the future? 

The work NASA does today, wouldn’t be possible without the mentors who have blazed the trail before. NASA Kennedy Center Director Janet Petro shares the importance of this teamwork, reminding us, “We are not doing any of this work for just ourselves, it is for the bigger goals of the agency and humanity.”  

Have a mentor you would like to thank? Send them your very own NASA thank you card: SP-2024-02-154-KSC EGS Women Launching Women Notecards_fillable.pdf 

¿Tienes un mentor al que le gustaría agradecer? Envíales tu propia tarjeta de agradecimiento de la NASA: SP-2024-03-246-KSC EGS WLW – Thank You Card Spanish Notecards_Fillable.pdf 

NASA, Intuitive Machines Share Images from the Moon, Provide Science Updates

Spacecraft descends to lunar surface with lander legs extended
Odysseus’ landing captured a leg, as it performed its primary task, absorbing first contact with the lunar surface. With the lander’s liquid methane and liquid oxygen engine still throttling, it provided stability. Credit: Intuitive Machines 

 

NASA and Intuitive Machines co-hosted a news conference on Feb. 28 to provide a status update on the six NASA instruments that collected data on the IM-1 mission.  

Mission challenges and successes were discussed during the briefing including more than 350 megabits of science data downloaded ready for analysis. During transit, all powered NASA payloads operated and received data. During descent and landing, guidance and navigation data was collected that will help improve landing precision in the future, and all three payloads that were designed to operate on the surface have received data.   

The first images from the lunar surface are now available and showcase the orientation of the lander along with a view of the South Pole region on the Moon. Intuitive Machines believes the two actions captured in one of their images enabled Odysseus to gently lean into the lunar surface, preserving the ability to return scientific data. After successfully transmitting the image to Earth, there is additional insight into Odysseus’ position on the lunar surface. 

On Feb. 22, NASA science instruments and technology on board Intuitive Machines’ Nova-C lander, called Odysseus, landed on the Moon’s South Pole region, marking the United States’ first return since Apollo 17. This was also the first landing as part of the agency’s CLPS (Commercial Lunar Payload Services) initiative — transmitting valuable science data of each NASA payload from the lunar surface. 

Additional updates can be found by watching the news conference here. 

Taken on Tuesday, Feb. 27, Odysseus captured an image using its narrow-field-of-view camera. Credit: Intuitive Machines
Taken on Tuesday, Feb. 27, Odysseus captured an image using its narrow-field-of-view camera. Credit: Intuitive Machines

NASA Science Touches Down on Moon with Intuitive Machines’ Mission

Carrying NASA science and technology to the Moon, Intuitive Machines’ uncrewed lunar lander touched down at 5:23 p.m. CST on Thursday. The instruments aboard Odysseus will prepare NASA for future human exploration of the Moon under Artemis. Additional updates will be available Friday, Feb. 23.

Intuitive Machines Prepares to Land on the Moon with NASA Science Ready to Begin Operations

After a successful lunar orbit insertion, Odysseus is currently orbiting the Moon, approximately 12 miles above the lunar surface. Carrying six NASA science investigations and technology demonstrations, the Intuitive Machines lander is expected to land at 6:24 p.m. EST near Malapert A in the south polar region of the Moon. Watch now on NASA+, NASA TV, and the agency’s website.

Over the last seven days as the mission has travelled from the Earth to the Moon, all powered NASA science instruments have completed their transit checkouts, collected data, and are operating as expected. Flight controllers will continue to analyze the data collected and monitor the payloads to inform preparations for landing.

The remaining lunar descent milestones include the following. All times are approximate:

Time (EST) Event
6:11 p.m. Powered Descent Initiation
6:22 p.m. Pitch Over with Main Engine
6:23 p.m. Hazard Detection and Avoidance
6:24 p.m. Vertical Descent
6:24 p.m. Terminal Descent
6:24 p.m. Landing

Intuitive Machines Updates IM-1 Mission Landing Time

NASA science is taking another orbit around the Moon. Flight controllers chose to complete an additional orbit before beginning the IM-1 Mission landing sequence. The updated landing time is 6:24 pm. EST.

NASA coverage of the mission will begin at 5 p.m. on NASA+, NASA TV, and the agency’s website.

Intuitive Machines Updates IM-1 Landing Time, Carrying NASA Science

Carrying NASA science instruments to the Moon, Intuitive Machines’ flight controllers conducted a lunar correction maneuver to raise the orbit for Odysseus overnight. As a result, the anticipated landing time is now 4:24 p.m. EST on Thursday, Feb. 22.

NASA coverage of the mission will begin at 3 p.m. on NASA+, NASA TV, and the agency’s website.

Intuitive Machines, NASA Science Progress Toward Moon Landing

Odysseus passes over the near side of the Moon after entering lunar orbit insertion on February 21. Credit: Intuitive Machines
Odysseus passes over the near side of the Moon after entering lunar orbit insertion on February 21. Credit: Intuitive Machines

Intuitive Machines’ Odysseus lander has completed lunar orbit insertion successfully and is currently orbiting the Moon. Odysseus continues to be in excellent health and is approximately 60 miles (92km) from the Moon. 

The spacecraft will orbit the Moon for approximately one day before beginning its descent toward the lunar surface. The landing opportunity is targeted for Thursday, Feb. 22, at 5:30 p.m. EST.  

All powered NASA science instruments on board have completed their transit checkouts, received data, and are operating as expected, including: LN-1 (Lunar Node 1 Navigation Demonstrator), NDL (Navigation Doppler Lidar for Precise Velocity and Range Sensing), RFMG (Radio Frequency Mass Gauge), ROLSES (Radio-wave Observations at the Lunar Surface of the Photoelectron Sheath), SCALPSS (Stereo Cameras for Lunar Plume-Surface Studies). Since the LRA (Laser Retroreflector Array) instrument is a passive experiment designed for the lunar surface, it cannot conduct any operations in transit. 

LN-1 has made three successful passes with NASA’s Deep Space Network, establishing real-time communications with ground stations on Earth. Upon lunar touchdown, the LN-1 team will conduct a full systems checkout and begin continuous operations within 24 hours of landing. NASA’s Deep Space Network will receive its transmissions, capturing telemetry, Doppler tracking, and other data and relaying it back to Earth. 

A SCALPSS checkout was completed during transit, confirming the cameras are operating as expected and the instrument is in good health. Using four tiny cameras, SCALPSS will collect imagery of how the surface changes from interactions with the spacecraft’s engine plume as the lander descends toward the Moon. 

RFMG continues to gauge the cryogenic propellants on Odysseus throughout the mission, including propellant loading, transit, lunar orbit insertion burn, and low lunar orbit.  Data collection and analysis will continue through landing on the Moon and could provide insights on how to measure fuel in microgravity.  

NDL and ROLSES have been operated, and flight controllers will continue to monitor the instruments and collect data to inform preparations for landing. 

Odysseus’ Terrain Relative Navigation camera captures the Bel’kovich K crater on the Moon’s northern equatorial highlands. The crater has an approximate 50 km diameter with mountains in the center, made when the crater was formed. Credit: Intuitive Machines
Odysseus’ Terrain Relative Navigation camera captures the Bel’kovich K crater on the Moon’s northern equatorial highlands. The crater has an approximate 50 km diameter with mountains in the center, made when the crater was formed. Credit: Intuitive Machines

 

Intuitive Machines’ IM-1 mission is the company’s first mission through the agency’s Commercial Lunar Payload Services initiative, which aims to gain new insights into the lunar environment and expand the lunar economy to support future crewed missions under NASA’s Artemis campaign. 

Follow along with Intuitive Machines for the latest operational updates on their mission.   

NASA Science Aboard Intuitive Machines Continues Journey to Moon

A view of Earth and one of Odysseus’ fuel pressurant tanks aboard the IM-1 mission. Intuitive Machines is a commercial company that has been contracted by NASA to send its science and technology instruments to the Moon. Colombia Sportswear is a commercial payload contracted with Intuitive Machines.
A view of Earth and one of Odysseus’ fuel pressurant tanks aboard the IM-1 mission. Intuitive Machines is a commercial company that has been contracted by NASA to send its science and technology instruments to the Moon. Columbia Sportswear is a commercial payload contracted with Intuitive Machines. Credit: Intuitive Machines

After a successful launch on Feb. 15, six NASA science instruments and technology demonstrations continue their journey to the Moon aboard Intuitive Machines’ lander named Odysseus. The company confirmed communications contact with its mission operations control in Houston, and its lander continues to perform as expected.

Known as IM-1, Intuitive Machines successfully transmitted its first images back to Earth on Feb. 16. These were captured shortly after separation from SpaceX’s second stage, on Intuitive Machines’ first journey to the Moon as part of the agency’s Commercial Lunar Payload Services initiative and Artemis campaign.

Within an hour of launching, NASA confirmed data was streaming from the agency’s powered science and technology instruments aboard the flight. This means data from these instruments was automatically streaming back to the teams so NASA could monitor the health and status of its instruments.

Later, Intuitive Machines successfully commissioned Odysseus’ engine which means they exercised the engine’s complete flight profile, including the throttling required for landing. The engine, which uses liquid methane and liquid oxygen, is the first of its kind fired in space.

One of the NASA instruments, the Radio Frequency Mass Gauge is gauging the cryogenic propellants on Odysseus throughout the mission. Data files have been collected and many have been downloaded for analysis. Throughout the propellant loading phase that took place before launch, the instrument collected data, which was downloaded and analyzed in near-real time. Data also is being collected during the microgravity transit phase of the mission. This analysis will continue through landing on the Moon.

Another NASA instrument, Lunar Node 1 Navigation Demonstrator, integrates navigation and communication functionality. This science instrument will operate for the first time today and daily during the cruise phase as the landing date draws closer. The radio beacon is designed to support precise geolocation and navigation observations to orbiters, landers, and surface personnel, digitally confirming their positions on the Moon relative to other craft, ground stations, or rovers on the move. The check-out helps prepare to land on the Moon as the navigation demonstrator aims to gather this data throughout the duration of the surface operations phase of the mission. Over the next day, flight controllers will analyze the data from this procedure to inform preparations for landing on Thursday, Feb. 22.

Follow along with Intuitive Machines for the latest operational updates on their mission.

A view of Earth captured by a 186-degree wide field of view camera aboard Intuitive Machines’ Nova-C lunar. The start of this image sequence occurred 100 seconds after separation and lasts for two hours. Credit: Intuitive Machines
A view of Earth captured by a 186-degree wide field of view camera aboard Intuitive Machines’ Nova-C lunar. The start of this image sequence occurred 100 seconds after separation and lasts for two hours. Credit: Intuitive Machines

Intuitive Machines Lander On Its Way To the Moon

Intuitive Machines’ Nova-C lander successfully powered on, made communications contact, and is now on its way to the Moon, carrying NASA science and technology demonstrations as part of the agency’s CLPS (Commercial Lunar Payload Services) initiative and Artemis campaign.

Nova-C is expected to land on the lunar surface Thursday, Feb. 22, and throughout its mission, the agency’s scientific instruments will focus on plume-surface interactions, space weather/lunar surface interactions, radio astronomy, precision landing technologies, and a communication and navigation node for future autonomous navigation technologies.

This concludes our live launch coverage. Continue to follow along for more CLPS updates: nasa.gov/clps.

Intuitive Machines Moon Lander Successfully Deploys

At approximately 1:53 a.m. EST, the Intuitive Machines’ Nova-C lander successfully deployed from SpaceX’s Falcon 9 second stage.

Onboard the lander are NASA scientific instruments and technology demonstrations, as well as other commercial payloads, heading to the Moon. Intuitive Machines was selected for this delivery as part of the agency’s CLPS (Commercial Lunar Payload Services) initiative and Artemis campaign. Coming up, Nova-C will power on and begin its journey to the lunar surface.