Watch Astronauts Peggy Whitson And Thomas Pesquet Spacewalk LIVE Tomorrow (Friday The 13th) From 6amCT

A journal book I covered in little black star drawings

Intern Week 6: A NASA Coincidence

Coincidence

I had barely graduated high school before embarking to NASA's Glenn Research Center in Cleveland, Ohio for an internship two summers ago. Equipped with my experience captaining a FIRST Robotics team I thought I was fully prepared for anything the engineering world could throw at me. Engineers racing to complete a power system for a multipurpose space habitat greeted me with hardware that needed testing, circuit board designs that needed fabricating, and copious acronyms that made my learning curve spike.

Fast forward two summers and I am now at at a different center, NASA's Johnson Space Center (JSC), creating crew displays for that same habitat and same hardware. By crazy coincidence my mentor from Glenn came to JSC this week to run the full systems test with the displays my current department made. This system test means a lot to me after being on each end of the development. I was the only person who new the electronics inside of the power system and  the digital guts powering the displays.

Astronaut Lunch

Yes you read that right lunch not launch. I had the gracious opportunity to meet Astronaut Mike Hopkins over lunch! He was on International Space Station (ISS) expedition 36 & 37, took part in two EVAs (extra vehicular activity), he has spent 166 days in space, and just a year ago he was in space. It was wonderful to talk to him about NASA, ways to become an astronaut and celebrity encounters.

Thermo Testing

A couple weeks ago I mentioned that us interns took part in thermo testing of cameras from the ISS in the wee hours of the night. In honor of our assistance our division, the Avionic Systems Division, awarded us will certificates in Team Excellence for "reinforcing the weary EHDC project team during overnight thermo testing." Caleb from: astronomicalwonders.tumblr.com also received this honor.

Robotics Molds Students Into Professional Triple Threats

It’s no shock that FIRST Robotics promotes science, technology, engineering, and math. FIRST’s message of STEM education is smeared all over its challenges, image, and very name “FIRST”- For Inspiration and Recognition of Science and Technology. What FIRST robotics didn't expect to do is create a new breed of professional triple threats. FIRST has molded a generation of confident communicators, tenacious culture changers and gracious leaders.

Communication A stereotype for anyone in STEM industry is that you are socially impaired and enjoy being locked in a dark room with your work. Out in industry, why would the media want to speak with an engineer when there is a whole marketing department dedicated to doing just that? Especially when the marketing knows to NOT speak techy geek lingo that makes anyone want to forget every ounce of high school algebra they remember. This communication challenge is constantly navigated on a FIRST Robotics team. There is a different set of dialog for the media, fans, fellow teammates, and supporters. A phrase like “the new FRC roboRIO has integrated PWM, servo, and analog I/O channels capabilities” could be useless to you unless you were on a team while “this year’s robot controller allows us to add more sensors on our robot” is more meaningful. Students learn how to identify who their audience is and communicate accordingly. Teams often present to companies, schools, communities, some tech literate, and some not. Tech industry will soon be welcoming individuals in STEM that can communicate to a wide audience and not just among themselves.

Culture Hot topics like celebrity gossip may catch your attention but for most not this week’s newest innovations. Why? Culture. For what I like to call the engineering golden years, 50s and 60s, engineers were celebrated as superstars. The media and government were behind their innovative visions, currently that support is there but not as visible. Its obvious that students in FIRST try to change culture by showing that STEM is cool, but they also change culture in a more powerful and subtle way. Students engage in a unique form of cooperation scarcely observed in industry. Yes, during build season students keep their team's design hush hush, but when a rival asks for help they rise to the occasion and assist. You don't see Microsoft asking Apple for help with font design or firmware advice. Students recognize that the success of all teams is more important for the success of their own. Once these individuals enter into industry their mindset of advancing humanity rather than stock competition will allow innovation to occur faster.

Leadership The word leadership often evokes an image of a CEO, suits shaking hands, and a cheesy stock image pasted on a motivational presentation. Although being an executive leader is a lot of people’s goals there are just not many of those positions open. Getting to that level of management maybe involve some ungracious acts, climbing the ladder while stepping on a few people's toes. FIRST robotics has shaped a more realistic image of leadership in the mind of this generation. These students understand leadership doesn't just come in the form of leading others but also the leading of self. Autonomously identifying when you have nothing to do, thinking of a way to drive a goal forward by contributing, and completing that task sounds like a relic of a time gone by. For individuals on FIRST robotics this self-motivation is the key to their team’s success. Students learn that their team's goal would not be reached without their daily drive.

Disguised by the whirring motors and blinking lights a new generation is being fashioned. These professional triple threats graciously reform communication, culture, and leadership. At competition, beyond the field and into the robot pits is the best place to watch this transformation take place. Not convinced? Grab a pair of safety goggles, shake a few hands with students, collect a few robot buttons, ask about their robot design, hear about their aspirations, and see for yourself.

Find your nearest FRC competition: http://www.usfirst.org/whats-going-on

It is possible to have a meaningful internship before college and completing core classes! I share early career tips in the U of MN Duluth Career Center blog: https://umdcareers.wordpress.com/2016/03/30/its-never-too-early-to-intern/ Side note: NASA interns toured the Historic Mission Control where Moon missions were guided from. I wasn't actually the Flight Director of Apollo Missions. However I did sit console in current Mission Control logging tasks during a space walk.

While adorned in Christmas decorations Mission Control is working fast to instruct astronauts on an unexpected space walk. Year in space astronaut Scott Kelly and newly arrived Tim Kopra are performing an Extra Vehicular Activity (EVA) while first time astronaut Tim Peake is declared the commander of Space Station. Kelly and Kopra are assisting in moving the Mobile Transporter rail car a few inches to a worksite on the station’s truss where it can be latched in place. The rail car was stuck and needed to be moved so a Russian ships could be captured this week. In addition they are checking off items from previous EVA Honey Do list. From the perspective of someone who has developed astronaut training, this last minute EVA is extremely impressive! It takes months to develop an EVA's schedule, hours of training in the largest pool in the world with station mock ups - Neutral Buoyancy Lab, and development of hours of training videos. It takes a whole day just to get the suit on! My mentor said who ever pulled this space walk planning off is going to get a big award. WATCH LIVE NOW: www.ustream.tv/NASAHDTV

NASA Co-Op Week 10: Rocket Science Is Hard

I get frustrated with NASA asking “Why don’t we just build a rocket and go?”, looking and sounding like a doofus in a horse head. NASA Johnson and Kennedy interns met up at Cape Canaveral to watch the Atlas V launch. Visiting Kennedy Space Center reminded me about how much goes into a rocket launch, sending humans or satellites into space. Of course budget and the ability to set and maintain ten year plus political space exploration goals would speed up the process. Those variables aside I want to share what goes into a rocket launch.

Fishing For Rockets Surprisingly NASA does indeed reuse rocket parts, I thought this idea was unique to SpaceX but has been in the works for decades. Following shuttle era launches skirts of rockets and other parts were retrieved from the ocean. They would be inspected, refurbished and reused. Shuttle rocket parts will be used on the new Space Launch System (SLS). Signs labeled parts that will be used for the EM-1 Orion launch. Protective materials preventing heat damage often get reapplied to these parts. Parts of the rocket get so hot it reaches 6000 degrees Fahrenheit while others get so cold ice forms. The technology used to mix these epoxies in mid air is the same technology that coats M&Ms and Doritos. Talk about spin off technologies!

Monster Tank So you made rocket parts. Great, but how do you expect to assemble and transport something so huge? This was a problem my robotics team ran into as well. We had to make sure the robot we built would fit through the door. Once you have all the rocket parts they will be assembled in the Vehicle Assembly Building (VAB), the tallest one story building in the world at 526 feet. It takes 45 minutes for the main door to be opened. Clouds have been known to form inside the VAB and rain has fallen too. Despite how big the VAB may be when transporting one of the rockets into an assembly segment it needed to be tilted at a 45 degree angle. Upgrades are currently being made for the massive SLS. Once the rocket is assembled it is transported on the Crawler-transporter moving at a back breaking speed of one mile per hour. This transporter insures the rocket reaches the launch pad safely limiting the movement of rocket to less than a diameter of a basketball.

Blast Off Wave goodbye to your creation because it will soon launch, release its payload, tumble into the sea repeating the cycle. A successful launch is dependent of many variables including launch pad hardware, windspeed, humidity, weather, and simply fishing boats in the line of debris reentry. If launch is a go bolts the size of your lower leg explode freeing the beast from the ground. If the bolts do not successfully release the rocket don’t care, it will continue to lift off and tear its restraints off like King Kong.

WAYS TO GET INVOLVED Consider touring Kennedy Space Center. While Johnson Space is the home of the human aspect of space flight Kennedy is in charge of getting is up there: https://www.kennedyspacecenter.com/

Write your congress members and senators encouraging them to support space exploration: http://www.house.gov/representatives/find/

Discover accomplishments made this week at NASA: http://youtu.be/_a9og3pAqxY

Watch highlights from the latest launch by United Launch Alliance of AtlasV carrying a GPS into orbit: https://www.youtube.com/embed/NPcRziWDigQ

Us Johnson Space folk visited our sibling NASA center Kennedy. We toured the largest one story building in the world, Vehicle Assembly Building (VAB), saw parts of the new Space Launch System (SLS) and visited amazing innovators at Swamp Works. Unfortunately the launch was delayed until tomorrow so we will catch it before we leave. Touring NASA Kennedy was humbling, it reminded me that my generation of space exploration advancers stands on the shoulders of giants. WATCH LAUNCH OCT31 12:13pmET http://www.ulalaunch.com/webcast.aspx

Us interns in front of NASA’s Saturn V rocket. Yes that astro-nerd on the far left is Caleb who is a fellow intern and Tumblr star: http://astronomicalwonders.tumblr.com/ who blogs about stars. 

Defrag tech swag.

I’ll catch you!