Brothers Bring Curious Minds, Sharp Questions To Langley

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

SAGE III Science Data Validation Efforts Begin

From its perch on the International Space Station, SAGE III is measuring stratospheric ozone as well as other gases and aerosols.

An orbiting science instrument whose legacy dates back 34 years continues to beam back data on Earth’s protective ozone layer – this time, from a perch on the hull of the International Space Station.

The Stratospheric Aerosol and Gas Experiment III (SAGE III), a NASA Langley Research Center-led mission, was launched on Feb. 19, 2017 and installed on the International Space Station during a 10-day robotic operation.

Since March 2017, the instrument has been measuring and collecting data on Earth’s sunscreen, stratospheric ozone, as well as other gases and aerosols, which are tiny particles in the atmosphere at all altitudes.

The SAGE III instrument makes these measurements through occultation, which involves looking at the light from the Sun or the Moon as it passes through Earth’s atmosphere at the edge, or limb, of the planet. The initial set of atmospheric data collected from the SAGE III instrument was released publicly in October 2017, and the first lunar data was released in January 2018.

Because the SAGE III instrument makes measurements through remote sensing - collecting data from some distance away - the science validation team cannot be sure if the data they are receiving is accurate without first validating it.

To do that, SAGE III science data must be compared to in-situ measurements, or measurements made by other instruments or systems that come in direct contact with the ozone, aerosol, or gas data being collected. These in-situ measurements are collected by the Network for Detection of Atmospheric Composition Change (NDACC), an international group, part of the National Oceanic and Atmospheric Administration, composed of research sites across the world collecting data on the Earth’s atmosphere.

“These sites have been vetted, validated, and have a long statistical history of making science measurements with their instruments,” said SAGE III Science Manager Marilee Roell.

The NDACC will collect these validated measurements through various methods, with two primary methods being through lidar - light detection and ranging - and sondes. Lidar is a ground-based measurement technique that uses a laser to shoot a beam into the Earth’s atmosphere, causing light to scatter by the atmospheric gases and particles. Being able to detect the distance to these gases and particles, the lidar can gather data on the Earth’s atmospheric composition.

Sondes are lightweight, balloon-borne instruments that are flown thousands of feet into the Earth’s atmosphere. As the instrument ascends, it transmits measurements of particle and gas concentrations by radio to a ground-based receiving station. Sondes are used daily across the globe to capture meteorological data, allowing people to check weather conditions each morning.

The science validation team is using NDACC ozone and aerosol lidar data, as well as ozone and water vapor sonde measurements, to validate science data collected from SAGE III.

“We want to match our vertical science product to an externally validated source. It helps the science community have confidence in our data set,” said Roell.

The team is working towards having an externally validated aerosol sonde to compare to the collected SAGE III data. This effort is in the preliminary stages of validating the aerosol balloon sonde against a suite of aerosol sounders, including lidar.

The team is working to validate science data with NDACC locations in Boulder, Colorado and Lauder, New Zealand, which fall within similar latitude bands in the northern and southern hemispheres. To be precise in validation efforts, the lidar or sonde measurement is taken at the same time and location that SAGE III is passing over and collecting equivalent data.

One of the most recent validation efforts took place in Table Mountain, California, and Haute Provence in France. Both locations include validated lidar systems, with lidar being operated by NASA’s Jet Propulsion Laboratory in Table Mountain, California.

Validation efforts were taken a step further by including a third source of measurements: NASA’s DC-8 aircraft. The aircraft, based out of NASA Armstrong Flight Research Center in Palmdale, California, operates as a flying science laboratory. It helps validate the accuracy of other remote-sensing satellite data, such as SAGE III, and can fly under the satellite’s path to collect the same measurements.

Validating the science data using this method required SAGE III, the NASA DC-8 aircraft, and the lidar system in California or France to be taking measurements at the same time and location. The science validation team worked to have all three systems line up while taking measurements and collected some coinciding science data.

NASA also created a validation website for other NDACC sites to use. The site displays SAGE III overpasses of NDACC sites that are three weeks out or less. These sites can choose to make lidar or sonde measurements at the same time as the instrument overpass, and compare them to SAGE III data collected to see if the two sets coincide. The validation team is pursuing additional NDACC sites to coordinate overpass timeframes when the sites may be taking lidar and sonde measurements.

The SAGE III team will present initial science validation data at the European Geosciences Union conference in Vienna, Austria this April.

SAGE III is the latest in a legacy of Langley instruments that go back to the Stratospheric Aerosol Measurement (SAM), which flew on the 1975 Apollo-Soyuz mission. SAGE II, operational from 1984 to 2005, measured global declines in stratospheric ozone that were later shown to be caused by human-induced increases in atmospheric chlorine. Data from it and other sources led to the development of the Montreal Protocol on Substances that Deplete the Ozone Layer.

After the passage of the protocol, SAGE II data also provided key evidence that the ozone layer was showing signs of recovery.

SAGE III, which launched to the station Feb. 19 from Kennedy Space Center in Florida, will continue to monitor that recovery, but with more of Earth’s atmosphere in its sights. SAGE II monitored only the stratosphere. SAGE III is monitoring both the stratosphere and the mesosphere, which is the layer directly above the stratosphere.

Ozone in the upper atmosphere acts as Earth’s sunscreen, protecting the surface from cancer-causing, crop-damaging ultraviolet rays. Atmospheric aerosols contribute to variability in the climate record.

Allison Leybold NASA Langley Research Center

There are amazing opportunities at each center. Learn more at: https://intern.nasa.gov  

So you want to work at NASA?

An out of this world career or internship might not be as far out of reach as you think. Check out all the ways you can get involved!

If you’re a student…

Our internships are the perfect place to start! We offer paid internships for spring, summer, and fall semesters to U.S. citizens currently attending an accredited university full time. Learn more at: https://intern.nasa.gov

Seriously considering a job in the Federal civil service? Check out the Pathways Internship Program which allows you to do multiple work tours while you finish school: http://nasajobs.nasa.gov/studentopps/employment/iep.htm

If you’re a recent graduate…

If you’re a U.S. citizen who has graduated from an accredited college or university within the past 2 years (or 6 if you have served in the military), then the our Recent Graduates program is just for you. Accepted applicants are placed in a 1 year career development program with the possibility of an additional year, or even granted term or permanent jobs within the agency. Learn more at: http://nasajobs.nasa.gov/studentopps/employment/rgp.htm.

If you’re a professional…

You can search for our job openings any time at USAJobs.com. Create an account, then use the USAJobs resume builder. Want to make sure your resume maximizes your opportunity for a job at NASA? Check out our Applicant Guide: https://applyonline.nasa.gov/applicant_guide.html.

You can then search for our job openings here: https://nasai.usajobs.gov/.

If you want to be an astronaut…

Astronaut candidate applications are accepted every few years- including right now! Get yours in before the current application closes on February 18, 2016.

Do you have a bachelor’s degree in a STEM field and 3 years of related professional experience? You might be eligible. Find out more and apply online at: https://nasai.usajobs.gov/GetJob/ViewDetails/423817000.

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The Vehicle Assembly Building (VAB) is one of the largest buildings in the world (525 ft 10 in tall, 716 ft long, and 518 ft wide) . It was originally built for assembly of Apollo/Saturn vehicles and was later modified to support Space Shuttle operations and now, Space Launch System rocket and Orion spacecraft for Exploration Mission 1.

In this view looking up from the floor of the VAB at NASA’s Kennedy Space Center in Florida, four levels of new work platforms are now installed on the north and south sides of High Bay 3. The G-level work platforms were most recently installed, at about the 14th floor level. Below them are the H, J and K level platforms.

The G-level work platforms are the fourth of 10 levels of work platforms that will surround and provide access to SLS. The Ground Systems Development and Operations Program is overseeing upgrades and modifications to VAB High Bay 3, including installation of the new work platforms, to prepare for NASA’s journey to Mars.

At Hangar, Raptors Find Shelter from the Storm

As Tropical Storm Hermine charged up the East Coast Sept. 2, 2016, Langley Air Force Base reached out to the Research Services Directorate and NASA Langley Research Center hangar manager Dale Bowser to see if NASA Langley could store a few F-22 Raptors. Even though the hangar in Hampton, Virginia, already had a large visitor — a C-130 from the Wallops Flight Facility on Virginia’s Eastern Shore — the hangar was able to carefully sandwich in more than a dozen Air Force fighters and offer them protection from the wind. NASA Langley photographer David C. Bowman captured the image using a fish-eye lens and shooting down from the hangar's catwalk some 70 feet above the building's floor.

The hangar provides 85,200 square feet (7,915 square meters) of open space and large door dimensions that allow for entry of big aircraft such as Boeing 757s and other commercial or military transport-class planes. The hangar normally is home to 13 of NASA Langley's own research aircraft, when they are not out doing atmospheric science or aeronautics research. Still, there is enough space to share with neighboring Langley Air Force Base during emergencies. The facility is rated for at least a Category 2 hurricane. Built in the early 1950s, it was designed to fit a B-36. It can also accommodate the Super Guppy, which visited NASA Langley in 2014. 

Image credit: NASA/David C. Bowman

Orion was making waves at @nasalangley this week

NASA, Air Force Perform Rescue Operations on Boeing Starliner

NASA astronaut Suni Williams cannonballs off a Boeing CST-100 Starliner test article after NASA engineers and Air Force pararescuemen climbed aboard the spacecraft to simulate rescuing astronauts in the event of an emergency during launch or ascent.

The Starliner is designed for land-based returns, but simulating rescue operations at NASA’s Langley Research Center’s Hydro Impact Basin in Hampton, Virginia, ensures flight crew and ground support are versed in what to do during a contingency scenario.

For more information about rescue and safety operations, see Commercial Crew: Building in Safety from the Ground Up in a Unique Way.

Credit: NASA/David C. Bowman

What's Up? - May 2018

What’s Up For May?

The Moon and Saturn meet Mars in the morning as our InSight spacecraft launches to the Red Planet on May 5!

You won’t want to miss red Mars in the southern morning skies this month.

InSight, our first mission to explore Mars’ deep interior, launches on May 5th with a launch window that begins at 4:05 a.m. PDT and lasts for two hours.

Some lucky viewers in central and southern California and even parts of the Mexican Pacific coast will get a chance to see the spacecraft launch with their unaided eyes AND its destination, Mars, at the same time.

Mars shines a little brighter than last month, as it approaches opposition on July 27th. That’s when Mars and the Sun will be on opposite sides of the Earth. This will be Mars’ closest approach to Earth since 2003! 

Compare the planet’s increases in brightness with your own eyes between now and July 27th. 

The Eta Aquarid meteor shower will be washed out by the Moon this month, but if you are awake for the InSight launch anyway, have a look. This shower is better viewed from the southern hemisphere, but medium rates of 10 to 30 meteors per hour MAY be seen before dawn.

Of course, you could travel to the South Pacific to see the shower at its best!

There’s no sharp peak to this shower–just several nights with good rates, centered on May 6th. 

Jupiter reaches opposition on May 9th, heralding the best Jupiter-observing season, especially for mid-evening viewing. That’s because the king of the planets rises at sunset and sets at dawn. 

Wait a few hours after sunset, when Jupiter is higher in the sky, for the best views. If you viewed Jupiter last month, expect the view to be even better this month!

Watch the full What’s Up for May Video: 

There are so many sights to see in the sky. To stay informed, subscribe to our What’s Up video series on Facebook. Make sure to follow us on Tumblr for your regular dose of space: http://nasa.tumblr.com.   

Two Virginia Schools Make Final Cut in Space Station Contest

Two Hampton Roads high schools will soon have their creations judged by NASA to see if they make it aboard the International Space Station. One is a food recipe for astronauts. The other is hardware for the space station.

Students from Phoebus High School prepare their breakfast dish at HUNCH's Preliminary Culinary Challenge at NASA's Langley Research Center.

Credits: NASA/David C. Bowman

Both projects are part of a NASA program called HUNCH, or High school students United with NASA to Create Hardware.

NASA’s Langley Research Center in Hampton, Virginia, hosted a preliminary culinary challenge March 5, where two schools cooked up a breakfast entrée. The shrimp and grits with gouda cheese dish from Phoebus High School in Hampton made it to the final competition at NASA’s Johnson Space Center in Houston scheduled for April 26.

Their work will be judged by Johnson Food Lab personnel, industry professionals, the space station program office, and astronauts for quality and taste. They’ll also be rated on a research paper and presentation video. The winning entree will be created by the Johnson Space Food Lab and sent up to the space station for astronauts to enjoy.

Space Hardware

Poquoson High School student Travis Redman, left, talks with Glenn Johnson, a design engineer at NASA's Johnson Space Center, about an astronaut boot that would lock in place preventing floating in a no gravity environment.

Credits: NASA/George Homich

Langley also hosted a critical design review March 6, when four schools showed off the real-world products they fabricated to tackle challenges faced by astronauts living in space. The team from Poquoson High School in Poquoson, Virginia, was selected as a finalist and faces a final design and prototyping review April 25 at Johnson.

The hardware includes a pin kit, can squisher, exercise harness, crew reminder tool, location app tool, and hygiene caddy. Many of the hardware projects are items personally requested by space station crew.

The North Carolina School of Science and Mathematics, who also presented their projects at Langley, will join Poquoson High to present their works at Johnson. The projects the team from the Durham-based school had were an augmented reality object identification annotation tool, automatic location stowage system, and a single point exercise harness.

“The HUNCH Program can change the trajectory of a student’s life, by providing various avenues beyond the STEM (science, technology, engineering and math) field and opportunities to participate in the global effort to research in space,” said Yolanda Watford Simmons, manager of Langley’s HUNCH program.

In 2015, a culinary team from Phoebus High won the culinary challenge and their entrée, Jamaican rice and beans with coconut milk, is now included in an astronaut cookbook. Read more on their success here.

For more information on HUNCH, go here.

Eric Gillard NASA Langley Research Center