On 2/18/1930, 86 Years Ago, Clyde Tombaugh Discovered #Pluto. Happy Anniversary, Buddy, We Should Have

Retired Major General Finds Balance as NASA Engineer

In many ways, the military and NASA couldn’t be different. Frank Batts has managed to navigate both worlds with precision, grace and just a bit of humor. After serving as a major general in the Army National Guard, he made the transition to working on computers as an engineer at NASA’s Langley Research Center in Hampton, Virginia.

“They’re opposites, but that keeps me balanced,” Batts said. “In the Army, you’re out there blowing things up in the field. Here, you’re trying to build electronic computer components.”

Batts is a senior data-systems engineer with the Advanced Measurement and Data Systems Branch at NASA’s Langley Research Center in Hampton, Virginia. He has been at Langley for 34 years and has seen the tools of the job change.

“Technology has changed tremendously,” said the 63-year-old Batts. “When we started out in the eighties, we were all using proprietary operating systems on real-time computers that were not widely used or understood. Now we’re pretty much using PCs for our work.”

In addition to his NASA career, Batts served his country with distinction in the armed forces – and made history along the way. He retired from the Army National Guard in 2012 as a major general and commander of the 29th Infantry Division in Fort Belvoir, Virginia - the first African-American to hold that post. He also served in the West Virginia and Tennessee national guards.

The adventure begins

Batts’ journey started in 1976, when he was accepted at North Carolina Agricultural and Technical State University in Greensboro and joined the Army Reserve Officer Training Corps (ROTC) there.

While at the university, Batts entered a cooperative program with the Union Carbide Corp., working in a gaseous diffusion plant in the nuclear division. After graduating from North Carolina A&T, Batts worked fulltime as an electrical engineer with Union Carbide, and as an engineering officer in the West Virginia National Guard.

“Initially when you get out of college, you’re competing with engineers from other schools,” Batts said. “I found out pretty soon that regardless of what school you came from, it got down to who can really deliver projects on time and on budget.”

Batts was pursuing a master’s degree in electronics engineering at North Carolina A&T around the time IBM introduced personal computers. He was told PCs were a fad and not worth investing in, but he glimpsed the future and got on board.

“It looked like to me it was the way to go,” he said.

But then in 1979, the Three Mile Island nuclear power plant in Pennsylvania experienced a partial core meltdown, releasing radioactive gas into the atmosphere.

The incident changed his professional trajectory, as the Union Carbide-run K-25 facility in Oak Ridge, Tennessee, where Batts was working, enriched uranium for nuclear power plants.

“Prior to Three Mile Island there were plans to construct nuclear plants all over the country, and K-25’s future was secure,” Batts said. “After Three Mile Island, all of those plans were dropped; we had more enriched uranium than was needed and K-25 was slated for closure.”

That meant he needed another job. While looking to move on, Batts found that NASA Langley was using a computing system similar to the one he used while he was with Union Carbide. He sets his sights on Langley, and has been on center as an electronic engineer since 1984 .

Two worlds in one

Batts’ military and NASA worlds were peacefully cohabitating until the Sept. 11, 2001, terrorist attacks. Batts was soon activated and from May 2004 through April 2005, served with the 54th Field Artillery Brigade Headquarters as the mobile liaison team chief in Kabul, Afghanistan as part of Operation Enduring Freedom.

“With the Army comes the leadership responsibilities. I managed a few thousand troops, and that’s no fun. I make an effort in my career at NASA to stay on the technical side rather than on the administrative side of things,” he said with a laugh.

What is fun for Batts, besides getting in more rounds at the golf course in his spare time, is serving as an example for engineering students though NASA’s outreach programs.

Batts, as the first engineer in his family, said he realizes the importance of recognizing those who blazed the trail for others.

“I have to pay homage to the people who came before me,” he said. “Before I was able to command a battalion, there was some else who commanded one, and did a credible enough job so that I had an opportunity.”

Batts also enjoys the reaction of people when they learn he works for NASA.

“There’s a lot of prestige that goes with working at NASA,” he said. “When people find out you work at NASA, they seem to look at you a bit differently.”

Eric Gillard NASA Langley Research Center

The Space Shuttle Endeavour, atop a NASA 747, flies over Texas near the Johnson Space Center, December 11, 2008. (NASA)

Life at the Lab: Dummies Crash Planes!

Get a behind-the-scenes look at how test dummies at NASA's Langley Research Center contribute to making the planes we fly on safer and developing space exploration vehicles. Work ranges from next-generation aircraft to water-impact tests that evaluate the splashdown of Orion astronaut crew capsules returning from space. 

Credit: NASA/Videographer: Gary Banziger; Writer and Co-Producer: Lily Daniels; Editor and Co-Producer: Kevin Anderson

Engineers at NASA’s Langley Research Center in Hampton, Virginia, kicked off a series of nine drop tests of a representative Orion crew capsule withcrash test dummies inside to understand what the spacecraft and astronauts may experience when landing in the Pacific Ocean after deep-space missions. The high-fidelity capsule, coupled with the heat shield from Orion’s first flight in space, was hoisted approximately 16 feet above the water and vertically dropped into Langley’s 20-foot-deep Hydro Impact Basin. The crash test dummies were instrumented to provide data and secured inside the capsule to help provide information engineers need to ensure astronauts will be protected from injury during splashdown. Each test in the series simulates different scenarios for Orion’s parachute-assisted landings, wind conditions, velocities and wave heights the spacecraft may experience when touching down in the ocean.

Click on the link to the full article to see how NASA’s Langley Research Center is changing the way we conceptualize commercial flight!

NASA Aeronautics Budget Proposes Return of X-Planes

Edwards AFB CA (SPX) Feb 19, 2016 NASA is researching ideas that could lead to developing an electric propulsion-powered aircraft that would be quieter, more efficient and environmentally friendly than today’s commuter aircraft. The proposed piloted experimental airplane is called Sceptor, short for the Scalable Convergent Electric Propulsion Technology and Operations Research. The concept involves removing the wing from a Full article

Just me meeting my hero Katherine Johnson after interviewing her in the newsroom for another article I’m writing. nbd ((VERY BIG DEAL)) •🚀•🚀• Katherine G. Johnson is a pioneer in American space history. A NASA mathematician, Johnson’s computations have influenced every major space program from Mercury through the Shuttle. She even calculated the flight path for the first American mission space. In 1953, Johnson was contracted as a research mathematician at the Langley Research Center with the National Advisory Committee for Aeronautics (NACA), the agency that preceded NASA. She worked in a pool of women performing math calculations until she was temporarily assigned to help the all-male flight research team, and wound up staying there. Johnson’s specialty was calculating the trajectories for space shots which determined the timing for launches, including the Mercury mission and Apollo 11, the mission to the moon. (at NASA Langley Research Center)

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.

Virginia Middle-Schooler Takes Grand Prize at NASA Langley Student Art Contest

Anna Fox, a seventh-grader from Virginia Beach Middle School in Virginia Beach, Virginia, was named as the grand prize winner of Langley Research Center’s Student Art Contest.

“I was very excited when I heard that I won first place for my grade,” Anna said. “But when I heard that I won grand prize, I was speechless.”

A record 831 entries were submitted from hundreds of children in 39 states, the District of Columbia and Puerto Rico, with 13 students earning first-place honors in grade levels K-12 and the opportunity to be considered for the grand prize, said Kristina Cors, Langley Student Art Contest coordinator.

“We hope this contest continues to grow and provide a place for students to explore science and technology through creativity,” she said.

“I was very excited when I heard that I won first place for my grade,” Anna Fox said. “But when I heard that I won grand prize, I was speechless.”

Credits: Courtesy of Anne Baker

The art contest theme, “The Next 100 Years,” was intended to illustrate how NASA research and innovation propels science to new discoveries.

“This year’s artwork was particularly remarkable, and represented the theme ‘The Next 100 Years’ with imagination and immense talent,” Cors said.

Anna’s winning piece shows a deep-space scene with an astronaut planting a flag on a planet’s mountain while watching a rocket fly off in the distance in a sky populated by stars, galaxies and a moon.

“When I started drawing, I had no idea what to do, so I had looked at a bunch of videos on how to do galaxies for inspiration,” Anna said. “After that I randomly placed colors together until I found something I liked. It all started coming together from there.”

Once she got an idea in motion, Anna did her work using old and new techniques.

“I created my artwork digitally on Photoshop,” Anna said. “I had started with basic colors for the background, including the explosion behind the rocks. Then, on another layer I created the rocks, planet, astronaut and rocket ship taking off. Later I added detail on all the layers to look more realistic. The last step was to add all of the stars and galaxies, which I did with a special brush.”

Anna, who has been an artist for as long as she could pick up a pencil, said she started drawing digitally when she was 11, inspired by her father’s work on a computer.

“I think the best part of creating art is having fun with it and inspiring others to do art as well,” she said.

Anna said she always had an interest in space and the art contest was a perfect vehicle to express that.

“I think that the coolest thing about NASA is that they help so many people achieve their dreams, and send people to do what not a lot of people get to do,” Anna said.

For her grand-prize victory, Anna received a certificate, and a NASA Exploration Package of posters, pens, stickers, patches and lapel pins. Her artwork will be displayed at the Virginia Air & Space Center in Hampton, Virginia.

The 13 grade-level winners were selected by a panel of five judges from the Hampton Roads art community, and the grand champion was picked by Langley employees. Each piece was evaluated on originality, interpretation of subject matter/theme, creative techniques, composition and overall art appearance.

Eric Gillard NASA Langley Research Center