Jump to content

Recommended Posts

  • Publishers
Posted
7 Min Read

2024 Be An Astronaut Campaign

NASA astronaut Andrew Morgan is pictured tethered to the International Space Station while finalizing thermal repairs on the Alpha Magnetic Spectrometer, a dark matter and antimatter detector, during a spacewalk that lasted 6 hours and 16 minutes.
NASA astronaut Andrew Morgan tethered to the International Space Station during a spacewalk.
Credits: NASA

NASA astronauts have been traveling to space for more than six decades and living there continuously since 2000. Now, NASA’s Artemis program is preparing to land the first woman and the next man on the Moon. As NASA continues to expand human exploration in our solar system, we will need more than the currently active astronauts to crew spacecraft bound for deep-space destinations.

Every four years, NASA opens its doors and welcomes thousands of applicants to join a new class of astronauts that will push human spaceflight to new depths. Astronaut applications opened March 5, 2024, and closed April 16, 2024. In those 42 days, NASA’s 2024 Be An Astronaut Campaign used various platforms to promote the beauty of human spaceflight, explore opportunities to reach untapped and underserved audiences, encourage the younger generations to follow their dreams and pursue a career as an astronaut, and inspire the world about the capabilities we have as humans to explore farther than we ever have before.

Official “Be a NASA Astronaut” Video

To kick off the astronaut recruitment campaign, NASA, NASA Johnson, NASA Artemis, and NASA Astronauts accounts collaborated on a video narrated by Morgan Freeman on Instagram reaching over 9.7 million views. This video, seen below, was shared across agency social media platforms, YouTube, and digital sites to introduce the start of the astronaut application period.

The Universe is Calling: Apply to Be a NASA Astronaut, official NASA astronaut recruitment video featuring a voice over by Morgan Freeman.

"Spaceflight is just one part of it. You are a team member before you are any thing in this role."

April Jordan

April Jordan

Manager of NASA Astronaut Selection

Throughout the campaign, #BeAnAstronaut was utilized to increase campaign awareness and engagement. This hashtag was used by 36 agency accounts and totaled 167 posts across the agency. With over 15,000 social media mentions, 256,655 total page views throughout the campaign, and news presence on the Today Show, TIME Magazine, Yahoo News, The New York Times, and more, the Be An Astronaut campaign was a successful and exciting project that inspired aspiring astronauts to follow their dreams.

2024 Astronaut Graduation

On March 5, 2024, not only did astronaut applications open, but the 2021 class of NASA astronaut candidates graduated, officially making them astronauts and eligible for spaceflight. These newly graduated astronauts created a superlative to demonstrate just how NASA’s astronaut corps works as a team and family as they passed the torch down to NASA’s next class of astronauts.

The 2024 astronaut graduating class gives you an insider’s look at not only the who’s who of their graduating class, but it allows you to get a glimpse of the accomplished astronauts’ personalities. To see them together as a group, connecting through laughter helps to illustrate how much they value team care. These classic superlatives give the scoop on which astronaut is the best dancer, the funniest, and more. Enjoy seeing a lighter side of “The Flies” in this fun and upbeat montage of the 2024 astronaut graduating class.

Astronaut Candidate Countdown

Our astronaut graduation countdown campaign celebrated the most recent graduating class of astronauts. The previous class completed two years of rigorous training at Johnson Space Center before they officially gained their wings. This campaign not only highlighted their achievements, but hopefully inspired potential candidates by showcasing the journey from trainee to astronaut. During the graduation ceremony, applications for the next astronaut class were announced, continuing the legacy of excellence and exploration.

NASA Tumblr Thread

For many people, human spaceflight has been a part of their lives for decades. After years of exploring, hundreds of astronauts have shared their unique experiences with the world and inspired many to want to follow in their footsteps. With over 100 thousand impressions on Tumblr, NASA posted a unique thread on “5 Myths About Becoming an Astronaut”.

NASA’s Tumblr thread on “5 Myths About Becoming an Astronaut”. Credit: NASA

STEM Pinterest Pin

Reaching various audiences of all ages, backgrounds, demographics, and experiences was key during the Be An Astronaut Campaign. Not only was it important for this campaign to reach qualifying applicants, but it was just as important to reach the aspiring astronauts of the younger generation.

NASA posted on Pinterest 10 ways students can kick-start their space journeys within NASA’s Office of STEM Engagement, or OSTEM. Through this post, NASA was able to reach over 40 thousand students and share ways to get involved with NASA’s missions.

10 Ways Students Can Prepare to #BeAnAstronaut on NASA's Pinterest. Credit: NASA
A NASA astronaut during a spacewalk outside the International Space Station with the text, “10 Ways Students Can Prepare to #BeAnAstronaut”
Credit: NASA

"[NASA’s] decisions have led us to having an astronaut office that looks very much like America. You could reach in and grab any four people, and they would look like our crew.”

Victor glover

Victor glover

NASA Astronaut, Artemis II Pilot

NASA @ SXSW

screenshot-2024-12-03-144356.png?w=1879
A graphic of the International Space Station with the text, “Live from Space at SXSW: NASA Astronauts and Your Work in Orbit”.
Credit: NASA

NASA astronauts Jeanette Epps and Loral O’Hara joined NASA experts at the South by Southwest conference in Austin, Texas live from space on March 12, 2024. The astronauts joined a panel from aboard the International Space Station to discuss what it’s like to be an astronaut, how people can get involved with space station research and technology, and how to apply to become an astronaut.

img-6476.jpg?w=2048
Kristin Fabre, Jennifer Buchli, Leah Cheshier, Loral O’Hara & Jeanette Epps at Featured Session: Live from Space: NASA Astronauts & Your Work in Orbit as part of SXSW 2024 Conference and Festivals held at the Austin Convention Center on March 12, 2024 in Austin, Texas.
Credit: Stephen Olker/SXSW Conference & Festivals via Getty Images)

Vice President Encourages Applicants

Vice President Kamala Harris quoted NASA on X to encourage people to apply to become an astronaut reaching more than 885 thousand users on the social media platform.

screenshot-2024-12-04-135819.png?w=595
Vice President Kamala Harris’ post on X stating, “As Chair of the National Space Council, I am honored to witness our astronauts’ skill and determination first-hand. There is no typical path for an astronaut, and the next class of NASA astronauts will continue to lead the world in space exploration.”.

Astronaut Reddit AMA

Our Astronaut Recruitment Reddit AMA on March 20th was the top post on Reddit with 25 million subscribers, and stayed pinned to the top of the subreddit for several days. NASA astronauts Shannon Walker, Jessica Watkins, and Luke Delaney discussed what it takes to be an astronaut as well as personal insights into their journey. 

Merriam-Webster Word of the Day: Astronaut

NASA astronaut and member of the recently graduated 2021 class of NASA astronauts, Deniz Burnham, participated in the “Word of the Day” series with Merriam-Webster defining the word ‘astronaut’. Just weeks after officially becoming an astronaut, Deniz’s video was featured on Merriam-Webster’s website and social media platforms.

NASA astronaut Deniz Burnham featured in Merriam-Webster's word of the day video defining the word "astronaut".
NASA astronaut Deniz Burnham featured in Merriam-Webster’s word of the day video defining the word “astronaut”.

Houston, We Have a Podcast

On NASA’s top-rated podcast, “Houston We Have a Podcast,” our astronaut recruitment episode garnered over 4,000 plays on Apple Podcasts and more than 1,000 plays on Spotify. In this episode, the manager of NASA astronaut selection discussed the selection process and how to apply for an out-of-this-world career.

A lone spacesuit can be seen in the middle of the image, as a black shadow of the helmet reflects three question marks. Credit: NASA
A lone spacesuit can be seen in the middle of the image, as a black shadow of the helmet reflects three question marks.
Credit: NASA

United States Army Astronaut Recruitment Video

NASA astronaut and U.S. Army Col. Anne McClain discussed her experience as an astronaut and how other members of the U.S. Army can apply to become an astronaut and travel to space like her. This video was posted on the U.S. Army’s social media as well as posted to YouTube reaching thousands of supporters in and of the military.

Col. Anne McClain, commander of the U.S. Army NASA detachment, shares information on eligibility as well as where and when to apply to become a NASA astronaut like herself. Credit: U.S. Army

Become An Astronaut Webpage

NASA’s ‘Become An Astronaut’ webpage drove 246,655 viewers to the page throughout the duration of the recruitment campaign from internal and external collaborations across various digital platforms and events. Listing job requirements, frequently asked questions, and how to apply, the webpage consisted of 87.1% new visitors to the site and had almost 28 thousand referrals from Instagram.

screenshot-2024-12-06-124109.png?w=1558
NASA’s ‘Become An Astronaut’ webpage.
Credit: NASA

The 2024 Be An Astronaut Campaign ranged from March 5, 2024 to April 16, 2024 and successfully integrated various platforms, outreach opportunities, and educational resources into the recruitment of our next class of astronauts.

With over 15 thousand social media mentions, 2 thousand news outlet mentions, $4.6 million in publicity value, a 91% positive sentiment, and 195 countries involved in the conversation, the campaign was able to inspire NASA’s future space explorers and push the agency closer to returning to the Moon and going to Mars.

Share

Details

Last Updated
Dec 09, 2024
Keep Exploring

Discover More Topics From NASA

View the full article

Join the conversation

You can post now and register later. If you have an account, sign in now to post with your account.
Note: Your post will require moderator approval before it will be visible.

Guest
Reply to this topic...

×   Pasted as rich text.   Paste as plain text instead

  Only 75 emoji are allowed.

×   Your link has been automatically embedded.   Display as a link instead

×   Your previous content has been restored.   Clear editor

×   You cannot paste images directly. Upload or insert images from URL.

  • Similar Topics

    • By NASA
      5 min read
      Avatars for Astronaut Health to Fly on NASA’s Artemis II
      An organ chip for conducting bone marrow experiments in space. Emulate NASA announced a trailblazing experiment that aims to take personalized medicine to new heights. The experiment is part of a strategic plan to gather valuable scientific data during the Artemis II mission, enabling NASA to “know before we go” back to the lunar surface and on to Mars.
      The AVATAR (A Virtual Astronaut Tissue Analog Response) investigation will use organ-on-a-chip devices, or organ chips, to study the effects of deep space radiation and microgravity on human health. The chips will contain cells from Artemis II astronauts and fly side-by-side with crew on their approximately 10-day journey around the Moon. This research, combined with other studies on the health and performance of Artemis II astronauts, will give NASA insight into how to best protect astronauts as exploration expands to the surface of the Moon, Mars, and beyond. 
      AVATAR is NASA’s visionary tissue chip experiment that will revolutionize the very way we will do science, medicine, and human multi-planetary exploration.”
      Nicky Fox
      Associate Administrator, NASA Science Mission Directorate
      “AVATAR is NASA’s visionary tissue chip experiment that will revolutionize the very way we will do science, medicine, and human multi-planetary exploration,” said Nicky Fox, associate administrator, Science Mission Directorate at NASA Headquarters in Washington. “Each tissue chip is a tiny sample uniquely created so that we can examine how the effects of deep space act on each human explorer before we go to ensure we pack the appropriate medical supplies tailored to each individual’s needs as we travel back to the Moon, and onward to Mars.”
      The investigation is a collaboration between NASA, government agencies, and industry partners, leveraging commercial expertise to gain a deeper understanding of human biology and disease. This research could accelerate innovations in personalized healthcare, both for astronauts in space and patients on Earth.
      Organ-on-a-chip: mimic for human health
      Organ chips, also referred to as tissue chips or microphysiological systems, are roughly the size of a USB thumb drive and used to help understand — and then predict — how an individual might respond to a variety of stressors, such as radiation or medical treatments, including pharmaceuticals. Essentially, these small devices serve as “avatars” for human organs. 
      Organ chips contain living human cells that are grown to model the structures and functions of specific regions in human organs, such as the brain, lungs, heart, pancreas, and liver — they can beat like a heart, breathe like a lung, or metabolize like a liver. Tissue chips can be linked together to mimic how organs interact with each other, which is important for understanding how the whole human body responds to stressors or treatments.
      Researchers and oncologists use human tissue chips today to understand how a specific patient’s cancer might react to different drugs or radiation treatments. To date, a standard milestone for organs-on-chips has been to keep human cells healthy for 30 days. However, NASA and other research institutions are pushing these boundaries by increasing the longevity of organ chips to a minimum of six months so that scientists can observe diseases and drug therapies over a longer period.
      Bone marrow as bellwether
      The Artemis II mission will use organ chips created using blood-forming stem and progenitor cells, which originate in the bone marrow, from Artemis II crew members.
      Bone marrow is among the organs most sensitive to radiation exposure and, therefore, of central importance to human spaceflight. It also plays a vital role in the immune system, as it is the origin of all adult red and white blood cells, which is why researchers aim to understand how deep space radiation affects this organ.
      Studies have shown that microgravity affects the development of bone marrow cells. Although the International Space Station operates in low Earth orbit, which is shielded from most cosmic and solar radiation by the Earth’s magnetosphere, astronauts often experience a loss of bone density. Given that Artemis II crew will be flying beyond this protective layer, AVATAR researchers also seek to understand how the combined stressors of deep space radiation and microgravity affect the developing cells.
      To make the bone marrow organ chips, Artemis II astronauts will first donate platelets to a local healthcare system. The cells remaining from their samples will contain a small percentage of bone marrow-derived stem and progenitor cells. NASA-funded scientists at Emulate, Inc., which developed the organ chip technology used in AVATAR, will purify these cells with magnetic beads that bind specifically to them. The purified cells will then be placed in the bone marrow chips next to blood vessel cells and other supporting cells to model the structure and function of the bone marrow.
      Investigating how radiation affects the bone marrow can provide insights into how radiation therapy and other DNA-damaging agents, such as chemotherapeutic drugs, impair blood cell formation. Its significance for both spaceflight and medicine on Earth makes the bone marrow an ideal organ to study in the Artemis II AVATAR project.
      Passenger for research
      “For NASA, organ chips could provide vital data for protecting astronaut health on deep space missions,” said Lisa Carnell, director of NASA’s Biological and Physical Sciences division at NASA Headquarters. “As we go farther and stay longer in space, crew will have only limited access to on-site clinical healthcare. Therefore, it’ll be critical to understand if there are unique and specific healthcare needs of each astronaut, so that we can send the right supplies with them on future missions.”
      During the Artemis II mission, the organ chips will be secured in a custom payload developed by Space Tango and mounted inside the capsule during the mission. The battery-powered payload will maintain automated environmental control and media delivery to the organ chips throughout the flight.
      For NASA, organ chips could provide vital data for protecting astronaut health on deep space missions.”
      Lisa Carnell
      Director of NASA’s Biological and Physical Sciences Division
      Upon return, researchers at Emulate will examine how spaceflight affected the bone marrow chips by performing single-cell RNA sequencing, a powerful technique that measures how thousands of genes change within individual cells. The scientists will compare data from the flight samples to measurements of crew cells used in a ground-based immunology study happening simultaneously. This will provide the most detailed look at the impact of spaceflight and deep space radiation on developing blood cells to date.
      Keep Exploring BPS Scientific Goals
      Goals



      Precision Health



      AVATAR



      Quantum Leaps


      Biological & Physical Sciences Division (BPS)

      NASA’s Biological and Physical Sciences Division pioneers scientific discovery and enables exploration by using space environments to conduct investigations not possible on Earth. Studying biological and physical phenomenon under extreme conditions allows researchers to advance the fundamental scientific knowledge required to go farther and stay longer in space, while also benefitting life on Earth.
      View the full article
    • By European Space Agency
      The fourth satellite for the Copernicus Sentinel-1 mission, Sentinel-1D, has arrived at Félix Eboué airport, the main airport in French Guiana. From there the spacecraft, safely stored in its protective casing, will be transported to launch preparation facilities at the European Spaceport in Kourou.
      View the full article
    • By NASA
      NASA astronaut and Expedition 68 Flight Engineer Frank Rubio is pictured inside the cupola, the International Space Station’s “window to the world,” as the orbiting lab flew 263 miles above southeastern England on Oct. 1, 2022.NASA/Frank Rubio NASA astronaut Frank Rubio poses for a picture in the International Space Station’s cupola on Oct. 1, 2022.
      Rubio was selected as a NASA astronaut in 2017. He trained as a flight engineer and member of the Expedition 68 crew. Rubio, along with cosmonauts Sergey Prokopyev and Dmitry Petelin of Roscosmos, launched Sept. 21, 2022, on the Soyuz MS-22 spacecraft from the Baikonur Cosmodrome in Kazakhstan to the space station.
      While aboard the orbital laboratory, Rubio and his fellow crew members conducted dozens of scientific investigations and technology demonstrations, including growing tomato plants to study hydroponic and aeroponic techniques, participating in crew health experiments, and studying how materials react in microgravity. Research like this and other activity on the orbital outpost will inform long-duration missions like Artemis and future human expeditions to Mars.
      Rubio spent 371 days in space, surpassing NASA’s single spaceflight record for continuous days in space made by astronaut Mark Vande Hei. Rubio and his crewmates landed in Kazakhstan on Sept. 27, 2023. Rubio’s mission is the longest single spaceflight by a U.S. astronaut in history.
      Image credit: NASA/Frank Rubio
      View the full article
    • By NASA
      NASA astronaut and Expedition 65 Flight Engineer Megan McArthur removes Kidney Cells-02 hardware inside the Space Automated Bioproduct Laboratory and swaps media inside the Microgravity Science Glovebox. The human research study seeks to improve treatments for kidney stones and osteoporosis NASA astronaut Megan McArthur has retired, concluding a career spanning more than two decades. A veteran of two spaceflights, McArthur logged 213 days in space, including being the first woman to pilot a SpaceX Dragon spacecraft and the last person to “touch” the Hubble Space Telescope with the space shuttle’s robotic arm.
      McArthur launched as pilot of NASA’s SpaceX Crew-2 mission in April 2021, marking her second spaceflight and her first long-duration stay aboard the International Space Station. During the 200-day mission, she served as a flight engineer for Expeditions 65/66, conducting a wide array of scientific experiments in human health, materials sciences, and robotics to advance exploration of the Moon under Artemis and prepare to send American astronauts to Mars.
      Her first spaceflight was STS-125 in 2009, aboard the space shuttle Atlantis, the fifth and final servicing mission to Hubble. As a mission specialist, she was responsible for capturing the telescope with the robotic arm, as well as supporting five spacewalks to update and repair Hubble after its first 19 years in space. She also played a key role in supporting shuttle operations during launch, rendezvous with the telescope, and landing.
      “Megan’s thoughtful leadership, operational excellence, and deep commitment to science and exploration have made a lasting impact,” said Steve Koerner, acting director of NASA’s Johnson Space Center in Houston. “Her contributions have helped shape the future of human space exploration, and we are incredibly grateful for her service.”
      In addition to her flight experience, McArthur has served in various technical and leadership roles within NASA. In 2019, she became the deputy division chief of the Astronaut Office, supporting astronaut training, development, and ongoing spaceflight operations. She also served as the assistant director of flight operations for the International Space Station Program starting in 2017.
      Since 2022, McArthur has served as the chief science officer at Space Center Houston, NASA Johnson’s official visitor center. Continuing in this role, she actively promotes public engagement with space exploration themes, aiming to increase understanding of the benefits to humanity and enhance science literacy.
      “Megan brought a unique combination of technical skill and compassion to everything she did,” said Joe Acaba, chief of the Astronaut Office at NASA Johnson. “Whether in space or on the ground, she embodied the best of what it means to be an astronaut and a teammate. Her contributions will be felt by the next generation of explorers she helped train.”
      McArthur was born in Honolulu and raised as a “Navy kid” in many different locations worldwide. She earned a Bachelor of Science in aerospace engineering from the University of California, Los Angeles, and a doctorate in oceanography from the Scripps Institution of Oceanography at the University of California, San Diego. Before being selected as an astronaut in 2000, she conducted oceanographic research focusing on underwater acoustics, which involved shipboard work and extensive scuba diving.
      McArthur is married to former NASA astronaut Robert Behnken, who also flew aboard the Dragon Endeavour spacecraft during the agency’s SpaceX Demo-2 mission in 2020.
      “It was an incredible privilege to serve as a NASA astronaut, working with scientists from around the world on cutting-edge research that continues to have a lasting impact here on Earth and prepares humanity for future exploration at the Moon and Mars,” said McArthur. “From NASA’s Hubble Space Telescope to the International Space Station, our research lab in low Earth orbit, humanity has developed incredible tools that help us answer important scientific questions, solve complex engineering challenges, and gain a deeper understanding of our place in the universe. Seeing our beautiful planet from space makes it so clear how fragile and precious our home is, and how vital it is that we protect it. I am grateful I had the opportunity to contribute to this work, and I’m excited to watch our brilliant engineers and scientists at NASA conquer new challenges and pursue further scientific discoveries for the benefit of all.”
      To learn more about NASA’s astronauts and their contributions to space exploration, visit:
      https://www.nasa.gov/astronauts
      -end-

      Shaneequa Vereen
      Johnson Space Center, Houston
      281-483-5111
      shaneequa.y.vereen@nasa.gov

      View the full article
    • By NASA
      NASA/Josh Valcarcel NASA astronaut Zena Cardman poses for a portrait in a photography studio on March 22, 2024, at NASA’s Johnson Space Center in Houston, Texas.
      Cardman is currently aboard the International Space Station, where she perform research, technology demonstrations, and maintenance activities. Recently, she took a robotics test on a computer for the portion of the CIPHER study that measures space-caused changes to her brain structure and function; she also installed high-definition cameras on a spacesuit helmet.
      Cardman launched to the space station on NASA’s SpaceX Crew-11 mission. Members of Crew-11 will contribute to NASA’s Artemis campaign by simulating Moon landing scenarios that future crews may encounter near the lunar South Pole.
      Learn more about station activities by following the space station blog.
      Image credit: NASA/Josh Valcarcel
      View the full article
  • Check out these Videos

×
×
  • Create New...