Nasa History - Blog Posts

NASA’s 60th Anniversary: Humans in Space

It is part of the human spirit to explore. During 60 years, we have selected 350 people as astronauts to lead the way. For nearly two decades, humans have been living and working aboard the International Space Station in low-Earth orbit to enable future missions forward to the Moon and on to Mars while also leading discoveries that improve life on Earth. Since we opened for business on Oct. 1, 1958, our history tells a story of exploration, innovation and discoveries. The next 60 years, that story continues. Learn more: https://www.nasa.gov/60

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NASA’s 60th Anniversary: How It All Began

Congress passed the National Aeronautics and Space Act, on July 16 and President Eisenhower signed it into law on July 29, 1958. We opened for business on Oct. 1, 1958, with T. Keith Glennan as our first administrator. Our history since then tells a story of exploration, innovation and discoveries. The next 60 years, that story continues. Learn more: https://www.nasa.gov/60

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10 People You Wish You Met from 100 Years of NASA’s Langley

Something happened 100 years ago that changed forever the way we fly. And then the way we explore space. And then how we study our home planet. That something was the establishment of what is now NASA Langley Research Center in Hampton, Virginia. Founded just three months after America's entry into World War I, Langley Memorial Aeronautical Laboratory was established as the nation's first civilian facility focused on aeronautical research. The goal was, simply, to "solve the fundamental problems of flight."

From the beginning, Langley engineers devised technologies for safer, higher, farther and faster air travel. Top-tier talent was hired. State-of-the-art wind tunnels and supporting infrastructure was built. Unique solutions were found.

Langley researchers developed the wing shapes still used today in airplane design. Better propellers, engine cowlings, all-metal airplanes, new kinds of rotorcraft and helicopters, faster-than-sound flight - these were among Langley's many groundbreaking aeronautical advances spanning its first decades.

By 1958, Langley's governing organization, the National Advisory Committee for Aeronautics, or NACA, would become NASA, and Langley's accomplishments would soar from air into space.

Here are 10 people you wish you met from the storied history of Langley:

Robert R. "Bob" Gilruth (1913–2000) 

Considered the father of the U.S. manned space program.

He helped organize the Manned Spacecraft Center – now the Johnson Space Center – in Houston, Texas. 

Gilruth managed 25 crewed spaceflights, including Alan Shepard's first Mercury flight in May 1961, the first lunar landing by Apollo 11 in July 1969, the dramatic rescue of Apollo 13 in 1970, and the Apollo 15 mission in July 1971.

Christopher C. "Chris" Kraft, Jr. (1924-) 

Created the concept and developed the organization, operational procedures and culture of NASA’s Mission Control.

Played a vital role in the success of the final Apollo missions, the first manned space station (Skylab), the first international space docking (Apollo-Soyuz Test Project), and the first space shuttle flights.

Maxime "Max" A. Faget (1921–2004) 

Devised many of the design concepts incorporated into all U.S.  manned spacecraft.

The author of papers and books that laid the engineering foundations for methods, procedures and approaches to spaceflight. 

An expert in safe atmospheric reentry, he developed the capsule design and operational plan for Project Mercury, and made major contributions to the Apollo Program’s basic command module configuration.

Caldwell Johnson (1919–2013) 

Worked for decades with Max Faget helping to design the earliest experimental spacecraft, addressing issues such as bodily restraint and mobility, personal hygiene, weight limits, and food and water supply. 

A key member of NASA’s spacecraft design team, Johnson established the basic layout and physical contours of America’s space capsules.

William H. “Hewitt” Phillips (1918–2009) 

Provided solutions to critical issues and problems associated with control of aircraft and spacecraft. 

Under his leadership, NASA Langley developed piloted astronaut simulators, ensuring the success of the Gemini and Apollo missions. Phillips personally conceived and successfully advocated for the 240-foot-high Langley Lunar Landing Facility used for moon-landing training, and later contributed to space shuttle development, Orion spacecraft splashdown capabilities and commercial crew programs.

Katherine Johnson (1918-) 

Was one of NASA Langley’s most notable “human computers,” calculating the trajectory analysis for Alan Shepard’s May 1961 mission, Freedom 7, America’s first human spaceflight. 

She verified the orbital equations controlling the capsule trajectory of John Glenn’s Friendship 7 mission from blastoff to splashdown, calculations that would help to sync Project Apollo’s lunar lander with the moon-orbiting command and service module. 

Johnson also worked on the space shuttle and the Earth Resources Satellite, and authored or coauthored 26 research reports.

Dorothy Vaughan (1910–2008) 

Was both a respected mathematician and NASA's first African-American manager, head of NASA Langley’s segregated West Area Computing Unit from 1949 until 1958. 

Once segregated facilities were abolished, she joined a racially and gender-integrated group on the frontier of electronic computing. 

Vaughan became an expert FORTRAN programmer, and contributed to the Scout Launch Vehicle Program.

William E. Stoney Jr. (1925-) 

Oversaw the development of early rockets, and was manager of a NASA Langley-based project that created the Scout solid-propellant rocket. 

One of the most successful boosters in NASA history, Scout and its payloads led to critical advancements in atmospheric and space science. 

Stoney became chief of advanced space vehicle concepts at NASA headquarters in Washington, headed the advanced spacecraft technology division at the Manned Spacecraft Center in Houston, and was engineering director of the Apollo Program Office.

Israel Taback (1920–2008) 

Was chief engineer for NASA’s Lunar Orbiter program. Five Lunar Orbiters circled the moon, three taking photographs of potential Apollo landing sites and two mapping 99 percent of the lunar surface. 

Taback later became deputy project manager for the Mars Viking project. Seven years to the day of the first moon landing, on July 20, 1976, Viking 1 became NASA’s first Martian lander, touching down without incident in western Chryse Planitia in the planet’s northern equatorial region.

John C Houbolt (1919–2014) 

Forcefully advocated for the lunar-orbit-rendezvous concept that proved the vital link in the nation’s successful Apollo moon landing. 

In 1963, after the lunar-orbit-rendezvous technique was adopted, Houbolt left NASA for the private sector as an aeronautics, astronautics and advanced-technology consultant. 

He returned to Langley in 1976 to become its chief aeronautical scientist. During a decades-long career, Houbolt was the author of more than 120 technical publications.

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The Final Voyage

The MEDS journeyed to space with Atlantis for one last time.

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At Langley, Admiration and Gratitude Multiply on Katherine Johnson’s 100th Birthday

When Jasmine Byrd started her job at NASA about two years ago, she knew nothing about Katherine Johnson, the mathematician and “human computer” whose achievements helped inspire the book and movie “Hidden Figures.”

Jasmine Byrd, who works as a project coordinator at NASA's Langley Research Center, looks at an image of Katherine G. Johnson in the lobby of the building named in Johnson's honor. "I was just enthralled with her story," Byrd said.

Credits: NASA/David C. Bowman

At that point, the release of the film was still months away. But excitement was building — particularly at Byrd’s new workplace. She’d arrived at NASA’s Langley Research Center in Hampton, Virginia, where Johnson spent her entire, 33-year NACA and NASA career.

Soon, Byrd felt a strong connection to a woman she’d never met, nearly 70 years her senior.

“I was just enthralled with her story,” said Byrd, a project coordinator for NASA’s Convergent Aeronautics Solutions Project. Today, she works inside Langley’s Building 1244, the same hangar-side location where Johnson crunched numbers for the Flight Research Division in the 1950s.

View images of Katherine G. Johnson through the years at this photo gallery: https://go.nasa.gov/2MskBOq

Credits: NASA via Flickr

“I am thankful for the bridge that Katherine built for someone like myself to easily walk across,” Byrd said. “It helps me to not take this opportunity for granted. I know there were people before me who put in a lot of work and went through a lot of turmoil at times to make sure it was easier for people like myself.”

Fountain of gratitude

As Katherine G. Johnson’s 100th birthday — Aug. 26 — approached, many Langley employees expressed admiration for the woman whose math powered some of America’s first triumphs in human space exploration.

Johnson did trajectory analysis for Alan Shepard’s May 1961 mission Freedom 7, America’s first human spaceflight. At a time when digital computers were relatively new and untested, she famously checked the computer’s math for John Glenn’s historic first orbital spaceflight by an American in February of 1962.

Those are just two bullet points in a brilliant career that stretched from 1953 to 1986.

Her 100th birthday was recognized throughout NASA and around the world. But at Langley, the milestone created an extra measure of pride and joy.

Graduate research assistant Cecilia Stoner, stopped on her way to Langley’s cafeteria, said she admires how Johnson remained humble — even when showered with accolades ranging from the Presidential Medal of Freedom to toys made in her likeness.

Stoner’s lunch companion, Erin Krist, chimed in. “It’s incredible what she managed to do,” said Krist, a summer intern. “She paved the way for women. We couldn’t work here today if that hadn’t happened.”

Langley’s acting chief technologist, Julie Williams-Byrd, echoed that thought.

Julie Williams-Byrd, acting chief technologist at NASA's Langley Research Center, said she admires Katherine Johnson's technical excellence and support of STEM education.

Credits: NASA/David C. Bowman

“She opened the doors for the rest of us,” Williams-Byrd said. “Between her and Dorothy Vaughan and Mary Jackson and all the women who were at Langley at the time. It didn’t matter if they were called computers in skirts. They were here to do a job.

“It’s typical NASA culture, right?” Williams-Byrd said. “We have a mission. Everybody’s going to jump in and do what they can to make that mission successful.”

She also admires Johnson’s devotion to promoting science, technology, engineering and math studies among young people.

“While she was very focused on the technical work and really did great things there, her balance of life and responsibilities to those who would come up behind her, that really resonates with me,” Williams-Byrd said.

A modest mentor

Remarkably, a handful of current Langley employees worked side by side with Johnson. Among them is research mathematician Daniel Giesy, who started at the center in 1977.

“On my first job here, I was teamed with Katherine Johnson,” Giesy said. “She mentored me.”

Johnson showed Giesy the ropes as he and Johnson both provided mathematical and computer programming support for researchers working to find new tools for designing aircraft control systems. They eventually coauthored papers including “Application of Multiobjective Optimization in Aircraft Control Systems Design” from 1979, written with Dan Tabak.

“I would describe her as a good colleague, competent, courteous,” Giesy said. “She had her moments. If you slopped coffee on the way back from the break room, you bloody well better clean up after yourself. You don’t leave it for the janitor staff to work on.

“But she was focused on getting the job done,” Giesy said. “At that point in time, she wasn’t resting on laurels.” Only later would Giesy learn of her historic contributions to early space missions. “She did not brag on herself particularly.”

Regina Johns, who today recruits participants for tests related to crew systems, aviation operations and acoustics, arrived at Langley in 1968 as a high school intern. She returned as a contract employee in 1973 and has worked at Langley ever since.

This 1985 photo shows Katherine G. Johnson — front row, blue dress — posing with the Langley team she worked with at the time. Her coworker Dan Giesy is the bearded man two rows behind her on the far right.

Credits: NASA

In those early days, she remembers running into Johnson on campus occasionally. Johnson would often stop and talk, asking about her plans and what she was working on. Johns would eventually get to know Mary Jackson, another Langley researcher central to the “Hidden Figures” story.

“There weren’t a lot of minorities here at that time,” Johns said. “To know that they were engineers and mathematicians, it just gave me hope that, if they can do it, it can be done. If you work hard, you can do it.”

She, like many across the agency, said she’d like to send Johnson a birthday message.

“If I had a chance, I would say, thank you for setting the pathway for young people. Thank you for showing us that we can do anything.”

Enduring legacy

In terms of lives touched, Johnson’s work with youth stands alongside her impact as a world-class mathematician. Langley’s Katherine G. Johnson Computational Research Facility, which opened in September 2017, offers a physical reminder of her contributions.

“The Katherine Johnson building is near where I work, so I think about her often,” said Kimberly Bloom, director of Langley’s Child Development Center. Johnson’s life and accomplishments would have deserved attention even if Hollywood hadn’t come calling, she suggests.

Kimberly Bloom, director of Langley's Child Development Center, said Katherine Johnson made a positive impact on NASA culture and on America as a whole.

Credits: NASA/Sam McDonald

“It’s an important story — how she empowered women of all races,” Bloom said. “And she encouraged kids to learn. She influenced culture here at NASA, but also beyond and made an impact. She certainly is a role model.

“I’d like to thank her for all she’s done not only for NASA but also for this country,” Bloom said.

Learn more about Katherine G. Johnson's life and contributions to NASA at this link.

Sam McDonald ​NASA Langley Research Center