Nasaintern - Blog Posts

Five Ways NASA’s Internships Rock(et)

Sending humans to space, returning to the Moon, transforming aircraft, exploring the extraordinary every day: just a few things you are a part of as a NASA intern. Whether you have dreamed of working at the agency your whole life, or discovered a new interest, students at NASA have the opportunity to make real contributions to space exploration and flight. Want to know more? Here are five ways these internships can be rocket fuel for your career:

5. NASA gives you a navigation system. 

Imagine walking into a lab to work side-by-side with NASA scientists, engineers and researchers. As a NASA intern, that’s a daily reality. Mentors are full-time employees who guide and work with students throughout their internship. Space communications intern Nick Sia believes working with a mentor is what makes NASA’s internships different. “Working one-on-one has given me more opportunities to work on different projects,” he says. “It’s the best motivation to do great work.”

4. It’s more than training for launch day. 

As a NASA intern, your work matters. Students are treated as employees, and their ideas are valued. Hands-on assignments allow interns to make real contributions to NASA research and gain experience. For example, Erin Rezich is working in our mobility lab to help design excavation hardware for planetary surfaces such as the Moon. “It’s an incredibly exciting project because these are problems that have to be solved to move planetary exploration forward,” she says.

3. Students develop an array of skills.

Not only do interns improve their technical skills, but they are also building communication and leadership skills. This summer, students are taking part in a two-week immersive design challenge. Participants will design a Ram Air Turbine for NASA Glenn’s 1x1 Supersonic Wind Tunnel. “This design challenge is a unique opportunity to create a design from scratch, which could actually be implemented,” says Woodrow Funk, an electrical testing engineer intern. Projects such as this allow students to work independently, plan, organize and improve time management skills. 

2. Non-technical degrees shoot for the stars. 

NASA also offers many opportunities for students pursuing a career outside of STEM fields. Departments such as human resources, administration, education and communications engage students with hands-on projects. These organizations provide support essential to NASA’s programs and missions. “I was excited that NASA offered opportunities that match my skill set,” says Molly Kearns, a digital media student working with Space Communications and Navigation. Kearns’ first summer at NASA confirmed her passion for graphic design. “What makes the experience so rewarding is seeing content that I created published on social media sites,” she says.

1. Students are surrounded by extraordinary peers. 

Students come to NASA from all over the nation to develop important skills matched to their career goals and expand the way they think about their work. Being surrounded by the best scientists, developers, engineers, mathematicians and communicators is inspiring. NASA’s network is one of graduate fellow Jamesa Stokes’ main motivations. “There are tons of smart and awesome people who work here,” says Stokes, “At the end of the day, they are willing to help anyone who comes and asks for it.”

Are you ready to liftoff your career? Learn more about opportunities for students at NASA here.

Make sure to follow us on Tumblr for your regular dose of space: http://nasa.tumblr.com.

Space Device User Test: NASA Co-Op #3 Week 13

Feels like a day back in high school robotics. Staying late Friday to work out the last software bug. If there is a team member in the lab, you are in the lab. Instead a team of high school robo-prodigies, I lead a team of developers and flight controllers in preparation for a space device user test. The goal is to test a stowage app may make unloading and loading cargo ships easier astronauts to perform on the International Space Station. The app runs on a device that makes these operations more hands free. Additionally the app may make stowage operations more error free. I have coordinated the Stowage App's debut - a user test performed by experienced Mission Control flight controllers in NASA Johnson's Space Vehicle Mockup Facility (SVMF). The SVMF is filled with exact replicas where astronauts train and devices are tested.

During the space device user test participants were asked to go on a sort of extraterrestrial Easter egg hunt. Users were asked to unpack stowage items from a visiting vehicle mockup and stow them in the International Space Station mockup. While participants learn how to use the app and pick up items non-biased data takers record results and record reactions. Unapologetically, we threw the users under the bus without giving a tutorial on how to use the app. This way data takers could assess how intuitive (or not) the app is.

Valuable data was collected about app usability. Developers shared they already had ideas to make the app more user friendly. For the remainder of my Co-Op tour I will be engaged with data analysis, brainstorming with the dev team how to improve the app and a pitch to management about continuing app development.

WAYS TO GET INVOLVED

"This week at NASA" video highlights John H Glenn's interment and Cassini the Saturn orbiter's final days prep.

If you missed NASA's Snapchat story featuring interns their Tumblr page shares how you can land a PAID NASA internship.

Become a US Government Civil Servant and get on track to becoming a full-time NASA employee by participating in the NASA Pathways Internship Program (Co-Op).

Details about Cassini's last shot to take data on Saturn.

Big Day In Space: NASA Co-Op #3 Week 12

Spacewalk

An International Space Station spacewalk with a runaway micrometeorite shield and SpaceX landing of a rocket which has already flown in space marks a busy week in space exploration.

American NASA astronaut Peggy Whitson conducted her eight spacewalk March 30th, 2017. Logging an accumulative 59 spacewalk hours, Peggy has surpassed the current record of female spacewalk hours. Peggy is now the third most experience spacewalker behind Anatoly Solovyev (68 hours) and former astronaut Mike Lopez-Alegria (67 hours). Accompanying Peggy on the spacewalk was current Space Station commander Shane Kimbrough.

The goals of the spacewalk included reconnecting cables and electrical connections to PMA3 on the Harmony node. Peggy and Shane also installed an upgraded computer relay box on Space Station's truss and installed shields to PMA3 and common berthing mechanism.

During the spacewalk, one of the shields was inadvertently lost. Fortunately, the shield floated away safely and does not pose a threat to Space Station nor the crew. However, the device missing a shield still needed to be protected. Mission Control engineers jumped into action with an Apollo 13-esque energy to solve how to replace the cover. They devised a plan for the astronauts to finish covering the port with the PMA-3 cover Whitson removed earlier in the day.

Leading this effort from the ground included  light Director Emily Nelson and Capsule Communicator (CAPCOM)/Astronaut Anne McClain. Below you can see circled in green CAPCOM McClain & circled in purple Flight Director Nelson. 

SpaceX Reusable Rocket

Falcon 9 rocket will delivered a commercial communications satellite to a Geostationary Transfer Orbit (GTO). SpaceX is on the road to full and rapid reusability as the world’s first reflight of an orbital class rocket, whereas NASA's Shuttle was a human transport between Earth and Space Station.  Falcon 9’s first stage was previously supported a mission in April of 2016.

Rewatch the launch and landing broadcast here.

WAYS TO GET INVOLVED

Science Friday featured NASA Robotics and exploring the galaxy

Apply to be a NASA Intern

Accomplishments this week at NASA

NASA panelists at a Women History Month event

Launch your Aerospace Career

More pictures from the spacewalk...

Robotics, Simulation & Future: NASA Co-Op #3 Week 8&9

Robotics: Many NASA interns and Co-Ops got hooked on STEM disciplines by participating in FIRST (For Inspiration and Recognition of Science and Technology) Robotics. In fact there is a robotics team that meets at NASA Johnson's Space Vehicle Mock Up Facility, the Robonauts. There are four levels for FIRST Robotics; Junior Lego League for ages 6 to 10 (JrFLL), Lego Robotics League for 4th to 8th grade (FLL), FIRST Tech Challenge for 7th to 12th grade (FTC), and FIRST Robotics Competition for 9th to 12th graders (FRC). There are still FIRST Robotics events you can take part in.

Search for FIRST Robotics events pick “Event” and use filters such as dates, program type, county and zip code.Volunteers apply through the Volunteer Information and Matching System and need to pass a background check. Once you are accepted into a position the volunteer coordinator will supply you with the necessary training.

WATCH TEAMS COMPETE LIVE (every Thur - Sat through weekend of April 27th, 2017).

Robot my FRC team made

Robot the team who builds here, Robonauts, made.

This year’s FRC game.

Simulation: A group of us toured the Systems Engineering Simulator (SES) lab a part of NASA Johnson's Robotics Engineering division. Astronauts visit SES to practice docking Orion, capturing the SpaceX Dragon cargo ship, and driving a Mars rover. They simulate realistic physics and scenarios with in house software (Unreal Engine couldn't cut it). The have simulations with the International Space Station, Japanese Cargo Vehicle (HTV), Dragon, Cygnus, Orion and future space exploration vehicles.

Future of NASA: Center Director Ellen Ochoa, Deputy Director Mark Geyer and Associate Director Melanie Saunders hosted an All Hands where they shared with NASA Johnson employees essentially our state of the union. Ochoa described that NASA of priority and interest of the new administration. Per the request of the administration, NASA is conducting a study to weigh the risks of adding a manned crew to Space Launch System and Orion Space Craft's EM1 test. This study is expected to conclude late March.

SCIENCE PACKED WEEK: NASA Co-Op #3 Week 7

The amount of science that occurred this week was so overwhelming that I had to make the title all caps. Five major science related events occurred this week... I was a Judge at the FIRST Robotics Tech Challenge SE Texas Championship, assisted in astronaut user testing, watched a briefing about seven new Earth-like planets found, watched SpaceX Dragon cargo ship dock to the International Space Station, and trained on the job in Mission Control during the Dragon cargo ship unstow.

1. FIRST Robotics Tech Challenge Judging

FTC is like FRC (that I was in back in high school) except FTC robots are 18in x 18in x 18in, rather than 120lb robots we built, and play a different game. This year's game is Velocity Vortex which required students to build a robot in only six weeks that could lift large medicine balls and shoot Whiffle balls at a target. I had a great time at the FIRST Tech Challenge's SE Texas Regional Champs judging teams. It was a challenge to judge teams when there was so much talent to sift through! Unlike Minnesota FRC's one regional these TX FTC folks have to go through three levels of competition to get to the World Championship. Worlds will be held in Houston this year April 19-22.

Volunteer with at a FIRST Robotics event.

2. SpaceX Dragon Launch to Space Station

Launch of Falcon9 carrying dragon cargo to Space Station went wonderfully. Additionally, a stage of Flacon 9 successfully landed ON LAND back in Florida to be refurbished and reused. This private space industry/ US Government/ International effort demonstrates Scott Kelly's quote: "Spaceflight is the biggest team sport there is, and it's incredibly important that we all work together to make what is seemingly impossible possible." Kelly said this when he handed over command of the ISS to fellow NASA astronaut Tim Kopra during his Year In Space Mission in 2016. Despite public belief, spaceflight is a team collaboration (not competition) between government, private and international groups.

3. Astronaut User Testing

In parallel to hands free stowage app development I am "Project Manager-ing" for, I am helping with a similar app on an iPad. This iPad app is going through user testing to get approved and sent up to Space Station. I assisted with user testing including participants from ISO and participants from the astronaut crew office who have flown. The test participants were asked to gather items in the ISS mock-ups and pack them into the SpaceX Dragon cargo ship mock up. I was available for test participants to ask about space station locations. Additionally I made the “play” stowage items that participants gathered and packed.

4. New Earth-like Planets Found

First known system of seven Earth-sized planets has been found! This solar system is called TRAPPIST-1 and the planets are named letters "a" through "g" from closest to furthest from the Star. These planets are one hundred times closer to their star and closer to each other than the planets in our solar system. This means that on the surface of one planet you can see other planets clearly like our moon. Since this star is significantly cooler than ours which leaves three of these planets habitable despite close proximity to the star. At light speed it would take 39yrs to reach this solar system. In 2016 in Chile, researchers used the TRAPPIST telescope to find two of the planets in TRAPPIST-1. In part of a global effort NASA's Spitzer telescope found total of seven reported this week. In the future NASA's James Webb telescope, set to launch in 2018, will take a closer look at TRAPPIST-1.

Check out what the surface of planet TRAPPIST-1d looks like. Find the other six planets in the sky.

Take a 3D tour of TRAPPIST solar system.

NASA's press release about the new found exoplanets.

Full breif/ exoplanet discovery announcement video here, it's only 30mins long with press questions.

5. Dragon Cargo Ship Unstow

Conducted on the job training with DISO (Dragon Inventory Stowage Officer) in a Mission Control support room. DISOs are in charge of monitoring the astronaut’s cargo unstow of SpaceX’s dragon cargo ship docked to the International Space Station. Dragon delivered many scientific experiments, food and temperature sensitive items. During unstow astronauts Peggy Whitson and Thomas Pesquet were about an hour ahead of schedule. This crew is extremely efficient and is ahead of schedule for every task, even spacewalks. Pesquet unpacked cold bags where temperature sensitive science is stored and should be unpacked quickly. Whitson retrieved CTBs (Cargo Transfer Bags) from Dragon which included science that needed kept at a particular temperature and pressure. CTBs are White, rectangular, cushiony, sewn bags sealed with a zipper and are used on every flight to contain items.

Unloading items from dragon in an elegant organized fashion is critical because SpaceX must always know its center of gravity. If there is a Dragon emergency in which case dragon cannot stay on ISS and needs to return to Earth the center of gravity is available for accurate trajectory calculations. During my on the job training I followed the procedures sent to crew and recorded changes astronauts made to the procedure. I listened to the voice loops of each of the flight control consoles communicating to each other about the astronaut’s tasks. I was able to confirm “words”, what was spoken over the loop, to the official DISO flight controller as a second check. Sometimes DISO are asked to confirm that an unstow procedure is being completed correctly and sometimes DISO needs to call the Flight Director to point out a stowage item concern.

Watch JAXA (Japan Aerospace Exploration Agency)'s HTV-6 cargo ship depart from the international space station 9amCT Friday Jan 27. HTV-6 is scheduled to deorbit in early February and burn up harmlessly while entering earths atmosphere over the ocean. During the decemt JAXA will be gathering data on electromagnetic forces around Earth: http://www.ustream.tv/nasahdtv

Space Walks & Garbage: NASA Co-Op #3 Week One

Space Garbage

Familiarized myself with the Inventory and Stowage Officer (ISO) team this week. They are a console position Mission Control that is in charge of managing the inventory and stowage of all US items on board the International Space Station (ISS). ISO prepares products for upcoming real-time operations and coordinates with other consoles regarding stowage plans. ISO is responsible for directing the crew to consolidate, relocate, audit, and unload a visiting vehicle. ISO as well as the Mission Control consoles’ mantra is to distill all information and procedures to make astronaut’s life easier. This is critical because astronauts have to navigate a lot of factors folks on ground don’t have to like; CO2 clustering around their face due to lack of gravity causing drowsiness, homesickness, isolation and general aggregations of communication challenges.

This week we focused on double checking the list of garbage that will burn up in Earth’s atmosphere in Japanese JAXA’s HTV6 cargo ship. Tediously we reviewed each item so nothing got thrown away that shouldn’t and items that would stink up the station were not missed.

Spacewalk

Conducted on the job training in Mission Control's support room called MPSR  (Multi-Purpose Support Room, pronounced "mipser") during the Friday the Thirteenth spacewalk. With an official Mission Control headset I followed along the astronauts tasks. Astronauts Shane Kimbrough and Thomas Pesquet spacewalked outside of ISS to update power systems. Upgrading power system of ISS was the overall goal of this month’s suite of Extra Vehicular Activities. Three 428lb Lithium-Ion batteries replaced nickel hydrogen batteries to store power for ISS during this spacewalk. Before the conclusion of the spacewalk engineers in mission control confirmed the batteries’ integration and initial power storage operations.

MPSRs usually use multi-view video with six images of ISS’ exterior and the crew to observe tasks being completed. They listen in on live loops to the Flight Director’s final calls, CAPCOM’s instructions and astronaut’s questions. If necessary MPSR operators can relay to their counterparts in front room Mission Control (FCR-1) information that can be filtered and relayed to Flight.

During the spacewalk there are many glove checks to check for leaks and anomalies. These gloves are impressively engineered to be thick enough to pressurize protect you from space yet gentle enough to allow you to feel space station through them. Astronauts could confirm with Mission Control that batteries were correctly mounted into place by describing drill rotations, torque and light sensor reading on the hand tool.

WAYS TO GET INVOLVED

Intern at NASA, year round, summer, spring or fall semesters.

Co-Op at NASA (Pathways Internship) and get sworn in as a Civil Servant.

Full-time employment at NASA opportunities!

This week's NASA achievements.

Everything about Mission Control from a Flight Director

Cargo Ship Choreography: NASA Co-Op #3 Day One

Today I returned to Mission Control to support the ISO (Inventory Stowage Officers) console. This team is in charge of packing cargo ships, choreographing the unloading of cargo ships and letting astronauts know where they misplaced their socks. Basically, ISO knows where everything is in the bird's nest that is the International Space Station.

My task is to choreograph the unloading of a cargo ship docked to space station. This is no ordinary choreography however, I will be using a device I created training for with another Mission Control in an earlier Co-Op. In the Fall of 2015 I produced a training video for a device that has the potential to make difficult procedures easier for astronauts. Astronaut Scott Kelly and Tim Peake ended up using this training in space. This week I will be familiarizing myself with standard unloading procedures, watching videos of astronauts testing this new device and questioning what is the hardest part of unloading that could be made easier with this device.

In layman's terms - I am choreographing the unloading of a cargo ship onto space station that the astronauts will perform by using a helpful device.

My battle station.

Saturn V stage.

Throwback to when I captained a FIRST Robotics team and a really fun interview about my NASA Co-Op experience:

http://www.fox21online.com/news/local-news/UMD-Student-Reaches-For-The-Stars-With-NASA/42581116

PATHWAYS INTERNSHIP (Co-Op) postings for NASA Johnson Space Center Houston, TX to open September 12th-16th, 2016! Get your USAJobs.gov resume builder resumes ready because the have changed the website layout! Mine was 20,000 characters and 7 pages long so don't wait until the night before. They are looking for business and technical Co-Ops. It looks like they are accepting COMPUTER SCIENCE students now as long as your college's curriculum meets their new criteria! What is the Pathways Intern Program? The NASA Johnson Space Center (JSC) Pathways Intern Program (formerly known as co-op program) follows a cooperative education model where current undergraduate and graduate students gain valuable work experience on an alternating school/work basis, and serves as a pipeline for our future full-time employees. Each work tour you will rotate into a different functional area at JSC, this allows you to try out different career paths while you are still in school and decide what you want to do after graduation. Each time you come for a work rotation you'll be assigned a mentor who will work side-by-side with you to make sure that you have a meaningful project and the tools/knowledge to complete it. Additionally, Interns are able to receive the same benefits as full-time employees such as bi-weekly pay, insurance, and paid time-off. Will be posted here on the 12th: http://nasajobs.nasa.gov/studentopps/employment/opportunities.htm

Sensing Mars: NASA Co-Op #2 Week Nine

Running trials with the new humidity on my fluid rig showed the fruits of my labor finally ripened. This week I ran three trials to collect data determining if a small business designed Humidity Sensor makes accurate measurements. NASA collaborates with small businesses to solve problems related to upcoming missions. The small business designed this Humidity Sensor so it could measure the humidity on Mars without corroding due to the planet’s chemistry.

Using sensors that NASA is familiar with I ran trial cases to get three different data points and compared those measurements to the new sensor. I created a low humidity environment with a desiccant (drier), created a moderate humidity with ambient air and a high humidity environment with a water bubbler. Using a National Instruments cDAQ (compact data acquisition) I collected data from a thermocouple, pressure gauge and a Vaisala humidity sensor that measures dew point (the temperature at which air can no longer “hold” all of the water vapor which is mixed with it) and mixing ratio (mass of water vapor over the mass of dry air). The new humidity sensor simply gives me the parts per million (ppm) of water using it’s ultrasensitive laser absorption spectroscopy. My other sensors don’t give me a ppm value so I have to calculate it using equations from my mentors “Fundamentals of Engineering Thermodynamics” book.

Building this trial rig was a unique experience because it required knowledge in electronics to interpret the signals sent by the sensors, computer science to write the data acquisition program and VNC (Virtual Network Computing) and chemical engineering to interpret data reported and use correct thermodynamics principles and equations. Next week will be looking at the data and get tangible values about how accurate the new Humidity Sensor is.

WAYS TO GET INVOLVED

Check out the AstrOlympics

See what NASA was up to this week

Apply for a NASA Co-Op

Apply for a NASA Internship

Fellow Co-Op shared her experience testing Curiosity Rover's drill, Morpheous tested thrusters and students toured space structure labs.

Jackelynne Silva-Martinez  presented "Behind the Scenes on the Verification and Validation (V&V) Tests of the Curiosity Rover's Robotic Arm." The Curiosity rover has been gathering data on Mars since August 2012. Jacky is a mechanical engineer who was a test operator for the MSL robotic arm during its V&V surface tests for sample acquisition, processing and handling. She tested with equipment which are a replica of the drill and the Collection and Handling for In situ Martian Rock Analysis (CHIMRA).

Engineering Structures (ES) students hosted a presentation and tour of labs that they work in for fellow Co-Ops and interns. These ES students are working on testing materials that cover Orion, untangling vibrations the Space Launch System experiences during tests and analyzing samples after the first Orion test.  

ES had lab with electron microscopes, impact test tools and a 3D printing lab. From the outside the ES building looks like a bunch of office spaces but nested in the inside are many we equipped labs.

July 20th was the Moon Landing's 47th anniversary. In celebration Johnson Space hosted an ice-cream party!

Morpheus is a planetary lander capable of taking off vertically. This week Morpheus' positioning thrusters were tested to capture footage for Engineering Propulsion. The test happened outside and we had to stay in the lab to remotely operate the test. Co-Op Michael O'Donnell is working on Morpheus preparing it's fuel chambers for thermo testing.

Pokemon Go Has Taken Over NASA! Before work, at lunch and after work interns gather at Pokemon lures and battle at Johnson Space Center's gyms. There is a Saturn V, Mission Control and Apollo Statue gym! It appears the majority of NASA folk are blue team. Our unique Pokemon include Jynx, Venasaur and Mewoth.

Watch Juno Spacecraft Arrive at Jupiter July 4th 9:30pmCT

Click here to watch live

Juno spacecraft media briefing screenshots from today! This basketball sized craft will insert into Jupiter’s orbit exposing itself to the radiation equivalent to a human receiving 100 million X-Rays in a year. Jupiter’s is still cooling down since its creation like taking a cake out of the oven. The famous red spot reveals how that heat is coming out. Goals of this mission include: learning how Jupiter was formed, how does its storms differ from our storms, what is the magnitude of its magnetic field, more accurately determine what is Jupiter composed of.

Pictures of Jupiter Revealed July 4th

Spend 2016’s Fourth of July in a most patriotic way - see new pictures of Jupiter sent back to Earth by NASA’s Juno space craft. Below is a schedule of when you can join the interstellar festivities on NASA TV CT (on either media or public channel): http://www.ustream.tv/nasahdtv

5am - 10am Scientist Interviews 11am - Noon Media Brief 3pm - 4pm Media Brief Replay 7pm - 8pm Media Brief Replay 9:30pm - 11:30pm Jupiter Insertion!

How to Work for NASA: Tips from a NASA Intern

Working for NASA is a life long dream for those who grew up building LEGO space stations, watching Space Shuttle launches and admiring Apollo Era heroes. Transforming this childhood dream into reality is more complicated than handing your resume to the right person but more straightforward than receiving a classified invite from an intelligence agent. I will share the many avenues of becoming a part of interstellar exploration discovered during my time interning at NASA. Ramen to Rockets NASA has two primary avenues for current college students to get involved - OSSI Internships and thePathways Internship program (Co-Op). OSSI (One Stop Shopping Initiative) is the main source for internships, fellowships and scholarship opportunities at various NASA centers. An internship is a semester long program where you work alongside professionals in your discipline, get paid in a stipend and do meaningful work that advances NASA’s mission. Some interns have been invited to join NASA full-time but is not common. A Pathways Internship (Co-Op) is similar to an OSSI Internship except a Co-Op is sworn in as a US Government Civil Servant, paid bi-weekly, receive benefits of a Civil Servant, and flip-flops between semesters studying at college and working at NASA. Some Co-Ops extend their flip-flopping into grad school. NASA’s primary pipelines for full-time Civil Servants is the Pathways Intern (Co-Op) program. I shared in great detail what the Co-Op program is and how to apply in this three part blog series. The phrase “college student” may spur images of a microwavable ramen zapping Millennial but NASA’s college programs are great for every kind of college student! OSSI and Co-Op students are parents, veterans, Millennials, experienced in industry and more. Cold Call Nothing can stop you from simply applying to a full-time position at a NASA center. I call it a “Cold Call” because this isn’t a pipeline program driven process. Go on USAJobs and search “NASA” and pages of positions will appear. Applying in this manner may feel like tossing your resume into a black hole. With stellar related experience in aerospace industry, research, military or start up work this method of applying may just work! I share how to use the USAJobs resume builder in this post. Alternatively, an extreme way to join NASA is to become an astronaut. I shared tips on the astronaut application processhere. Note that becoming an astronaut is the least probable way to work at NASA. Space Contract The majority of individuals working onsite at NASA centers are actually contractors. This means they are employed by private companies that NASA collaborates with on projects. Some of many contractors are Lockheed, Boeing, Jacobs, and System Technologies Group (STG). Projects that contractors work on include Orion, Space Launch System, propulsion testing, and International Space Station maintenance. A private company may have a contract to build a part or system and do so offsite at their respective facility. Contractors that produce a part offsite often come onsite to perform integration tests and are an important part of the NASA team and mission. Keep in mind, if you apply to a private (possibly aerospace related) company you may not have much control over if you are a part of a NASA related project.  More recently NASA has been reaching out to small businesses for parts, services and solutions via Small Business Innovation Research. Small businesses can propose projects that can advance NASA’s mission. From Civil Servant on site to a small business working in a small town you can work with NASA and advance space exploration.

Mars Dust into Thrust: NASA Co-Op #2 Week One

You would think pursuing a double major in electrical engineering and computer science would provide enough breadth to remain confident at a Co-Op... wrong. As I start my second Co-Op tour at NASA Johnson's Propulsion & Energy Conversion team I am finding that the more you learn the less you know. This summer I will be LabVIEW programming for In Situ Resource Utilization (ISRU) a system that turns Mars dust into fuel. ISRU is a rover payload that takes in mars atmosphere and soil and turns it into liquid methane and oxygen (fuel options). Other capabilities is getting O2 to breathe and excavating drinkable water. One of my projects is to control with a National Instruments compact cRIO an oxygen liquefier and a new water concentration sensor. The sensor I am testing uses spectroscopy to eliminate sensor erosion from corrosive Mars materials. These tasks are very chemical engineering heavy which require understanding a system and how to control it safely. I am excited to tackle this learning curve, understand more about Mars mission energy systems, and become more comfortable with chemical engineering concepts. WAYS TO GET INVOLVED Watch what NASA is up to: https://youtu.be/p_snvjghMJg Learn how to program with LabVIEW: https://youtu.be/IOkoyuikj5Q?list=PLdNp0fxltzmPvvK_yjX-XyYgfVW8WK4tu Read about our journey to Mars: http://www.nasa.gov/topics/journeytomars/index.html ISRU in more depth: https://youtu.be/M3HbD1S_H5U

NASA Co-Op Week 7: Astronaut, Rovers & Robots

One wheel off the edge of a cliff ten of us were jam packed in a rover sweating like dogs.

Robonaut, Valkyrie, Modular Robotic Vehicle and Small Pressurized Rover are the electrical explorers we visited during a Johnson Space Center robotics tour. Waiting in NASA's Rock Yard was a speedy electric vehicle and a crater climbing rover. MRV is an electric drive vehicle that is has high maneuverability that would score big in drifting competitions. We all got to ride in the Small Pressurized Rover which wasn't really small at all. This giant monster truck looking rover took us in and out of  lunar like creators and up a steep Mars like hill. The operator drove us to the edge of the hill and asked, "All right, are you ready to go down?" Grasping to our seats we were all white knuckled. Backing up the rover the operator laughed, "Going down that hill would have wrecked the vehicle". For those few seconds the inside of the rover became even more sauna like. In The Martian movie you will see a modified version of the Small Pressurized Rover that Mark Watney drives around.

Robotnaut is the humanoid robot you see on the news all the time that works in the International Space Station (ISS). Flexing muscles and articulating fingers Robotnaut showed off for us. Robotnaut is very strong able to lift over 20lb of weight in manners that would make arm day miserable. However, Robotnaut is also very delicate able to sense the wight of a nickle on its fingertips.

Valkyrie is a full bodied humanoid robot designed to perform human tasks in conditions unsafe for humans. The idea for Valkyrie came after the Fukushima Accident where more damage could have been avoided if valves were closed near the site, a task a robot could do. Valkyrie is also being designed for low gravity exploration like Mars or Lunar exploration.

Astronaut Michael Fossum talked us student this week too. He flew two Shuttle Missions and a six month long mission to the International Space Station. Before he was in space Fossum engineered ways to repair the shuttle during space walks to prevent any pieces from breaking off. During the space walk  Fossum navigated over to the tiles on the space station and sealed spaces and breaks with cocking substance. He mentioned when you look "down" in various directions during a spacewalk you can either see the surface of Earth or a black nothingness.  Fossum also was the first to capture a time-lapse of Northern Light and the first astronaut to operate Robotnaut on the ISS.

HOW TO GET INVOLVED

Read about the Small Pressurized Rover and its future missions

Learn about Valkyrie's future endeavors

Watch Astronaut Mike Fossum operate Robotnaut

Robotnaut's younger sibling Robotnaut2 operating switches on the ISS

Human like hand motions by Robonaut2

Start your career with NASA and tune into a Virtual Career Fair and hear about internship, fellowships and scholarships October 8th 12pm-3:30pmCT

NASA Co-Op Week 6: Sayonara Little Spacecraft

Mission control got so quiet you could hear the flight controllers sweat. Wait, wasn't the HTV supposed to be released?

Weeks ago HTV5, a Japanese cargo spacecraft, arrived at the International Space Station delivering fresh foods, experiments and other supplies. HTV5 was lovingly named Kounotori by the Japan Aerospace Exploration Agency (JAXA) meaning white stork. The arrival of these cargo ships are essential to ensure scientific exploration can continue on the Space Station. After the cargo ship is unloaded and reloaded with garbage. If you ever wondered how astronauts take out the trash...

Astronauts carefully fill up the empty cargo ship with garbage calling down to ground to double triple check if they can throw things out. At times it takes three astronauts strapping the trash bags to the inner walls of the cargo ship to finish the job. Why bother doing that, it is just trash?  By carefully calculating its trajectory, center of gravity and controlling its course the cargo ship plummets through Earth's atmosphere and burns up before hitting the surface. If the center of gravity was not constant the cargo ship we would lose control of the cargo ships trajectory. The cargo ship is released from the Space Station. Up until now the Canadarm2 has a hold of the cargo ship but then releases its grasp. Now you see the importance of HTV5's release, we don't want anyone getting hit by astronaut trash.

Flash forward to HTV5's release day I am sitting console with ISE (Integration Systems Engineer) console, the console that is in charge of visiting vehicles. Timing of the HTV5 release is key - it needs to occur when we have full communications, quickly as steps to release need to execute one after another, and ideally when the Space Station is illuminated by the sun for our monitoring. The countdown for the release began. The flight director focused our thoughts, "stop unnecessary chatter" the release sequence was about to begin. Flight controllers called "ADCO Go", "PLUTO Go", "ISE Go" and so on. Release protocol began but the Canadarm2 did not budge and the window for release was quickly closing.

"ROBO, you have 20 minutes to tell me what happened." instructed the flight director. In mission control there is no time to freeze up when an issue occurs but time to get to work and solve the problem. ROBO is in charge of the Canadarm2 operations. After determining a new release window, re-configuring Canadarm2 the HTV5 was successfully released! JAXA astronaut Kimiya Yui worked controls on-board the international space station. Later on Twitter Kimiya remarked, "Sayonara Kounotori- kun. You are so beautiful I really miss you...".

WAYS TO GET INVOLVED Watch these silly astronauts float, eat and exercise on the Space Station.

Achievements this week at NASA.

Video from the HTV5 release.

Astronaut Kimiya speaks with his hometown about life on the Space Station.

I was in mission control when the discovery of water on Mars was announced! See what the NASA scientists have to say about Martian waters.

Start your career with NASA and tune into a Virtual Career Fair and hear about internship, fellowships and scholarships October 8th 12pm-3:30pmCT

Photos by NASA

NASA Intern Reviews The Martian Movie

Maybe I am biased saying that The Martian is a must see, inspiring, stellar movie because I eat, sleep and defecate space exploration. However I am not here to tell you how great it was cinematically but answer some questions folks are curious about. As a NASA intern can you share some of the accuracies and inaccuracies of The Martain? Understand that many from the space community hang up their lab coats before walking into the theater. With my unhealthy space obsession I was wearing my lab coat complete with googles and a pocket protector.

Dust Storm Astronauts of the Ares III mission are caught in a dust storm so fierce they are forced to scrub the mission and return to Earth early. This catastrophic events sounds socking leaving people to wonder, why would we want to explore such a hostile planet? Fortunately the scenario of a powerful dust storm is not possible due to Mars’ thin atmosphere, 100 times thinner than Earth’s. Mars does indeed  have dust storms, in fact the largest dust storms in our solar system, they could not however knock anyone over. Author Andy Weir was aware of the inaccuracy even thinking of alternate openings but ultimately stuck with the dust storm opening.

Suiting Up Valiantly Mark Watney and the other astronauts quickly suited up to abort, perform tasks, or save a friend. The suits that are currently being used on board the International Space Station take around 15 minutes to don. Before astronauts perform Extra Vehicular Activities (EVAs), like a space walk, they start testing and preparing suit a day before. Some activies the astronauts must perform to prep for an EVA include; Pre-breathe 100 percent oxygen for 30 minutes to remove nitrogen from their blood and tissue, Rub the helmet with anti-fog compound, Insert a food bar and water-filled bag, and Check the suit for leaks by increasing the pressure to 0.20 atm above the airlock pressure. Maybe the models of space suits in The Martian have advanced greatly and take seconds to put on. Today’s astronauts would sure be jealous.

Banter Joking between the crew members and sarcasm between NASA members was accurate. Performing missions can get stressful and comments like the astronauts made between each other during Mars rock excavation occurs to relieve tension. But sometimes astronauts simply have a sense of humor. I’m glad The Martian portrayed the human side of NASA.

Mission Control Portrayed as a dimly lit stock exchange room futuristic Johnson Space Center (JSC) Mission Control Center contains dozens of consoles where flight controllers operate mission from. The first big no no is housing employees responsible for critical dynamic troubleshooting in a dark sleepy room. Cinematically it made the labels for the various consoles Flight Director, CAPCOM, ADCO look really cool. Yes, the mission control center in JSC has cool light-up blue console name plates. A second no no is the high number of consoles filling the big room. A flight director would have problems communicating with such a large group especially while systems were failing.

I understand that so many positions in mission control were added to operate the new technologies needed to complete the Mars mission and I thought of a solution. Currently at JSC our front room mission control (FCR, pronounced “ficker”) is what everyone sees on TV with the iconic consoles and big displays. Behind the scenes the Multi-Purpose Support Room (MPSR, pronounced “mipser”) controllers troubleshoot issues and work on procedures as well. MPSRs could reduce the number of consoles needed for a Mars mission. MPSR controllers can still communicate their concerns on audio loops to their FCR leaders.

NASA Family Everyone was cheering to save Mark Watney and bring him home. NASA scientists, engineers, leaders, and the whole community came together working overtime to keep him alive. This sense of “NASA Family” is very real at NASA and is a state of community that you feel even after a few weeks onsite. During Apollo 13 you could sense everyone’s held breath and relief when they returned safely. You could feel a heavy weight and sorrow after the Columbia and Challenger disasters. Pride was presented boldly with waving flags, hugs and cheering after the Moon landing. NASA is a family innovating for the future and striving for more moments to cheer about.

Little Catches *Good the time delay in communication between Mars and Earth was accurately explained. *Why was that astrophysicist wearing a heavy coat at Jet Propulsion Laboratory in California and Johnson Space Center in Texas? *Our NASA Centers do not yet look that pristine, in fact a lot of them contain asbestos.

Sources My experience and… https://youtu.be/m2bkJQah_dE http://science.howstuffworks.com/space-suit6.htm http://stao.ca/gr6space/livinginspace/Donning%20a%20spacesuit%20_article.pdf http://www.space.com/16903-mars-atmosphere-climate-weather.html

NASA Co-Op Week 3: Sitting Console

A scene from the New York stock exchange center was what I expected from Mission Control. Imagining the flight director with a thick cigar and eyebrows raised, flight controllers sitting console arguing about an experiment or device gone haywire and astronauts happily floating and Tweeting hearing only commands from Cap-Com that got through. My expectation was fortunately far from the truth. 

Mission Control is calm, controlled and direct. The flight director welcomes the console leads, PLUTO, Ops Plan, RIO, ROBO, ISO and so on. Each flight controller checks in with a status and their goals to accomplish. Astronauts join in every morning for a daily operations meeting asking questions about upcoming experiments and big ticket events. Cap-Com is the only position in Mission Control that speaks with the astronauts so other flight controllers let Cap-Com know what needs to be relayed to astronauts. While sitting console with PLUTO I could listen to all the audio loops, Russian translation loop, JAXA, ESA, each console, and other NASA centers. 

 HOW TO GET INVOLVED: 

*Tour the Mission Control Center through Space Center Houston

*Apply for a Pathways Internship (Co-Op) NOW ONLY OPEN SEP 14-18 for Johnson Space Center

*Apply for an internship at one of the many NASA centers.

*Follow NASA on Tumblr

Duluth Budgeteer News shares my NASA experience. Photo and article by Ellie French: http://www.duluthbudgeteer.com/news/3827414-it-rocket-science

Neutral Buoyancy Lab

6.2mil gal pool (fill 9 Olympic swimming pools) where astronauts train for EVAs.

Current Mission Control

Directs football field sized International Space Station which orbits every 90min

Historic Mission Control

Flew humans to the Moon with less computing power than your smart phone.

Intern Week 8: Pool, Control & Opportunity

Neutral Buoyancy Lab Tour A familiar faint smell of chlorine wafted in the air as we entered the Sonny Carter Training Facility. We stared at a vat  containing 6.2 million gallons of water, enough to fill nine Olympic swimming pools. Looking into the lagoon, 1:1 scale International Space Station (ISS) mock-ups were resting 40 feet below. Divers went about their daily routine escorting astronauts to various modules. Astronauts practiced EVAs (Extra Vehicular Activities) learning how to repair parts of the modules. Divers would retrieve tools astronauts drop and hold a camera up to their work for instructors to see. We saw where practice EVA suits are assembled and where modules are constructed before being submerged.

Mission Control Once again we return to Current and Historic Mission Control. Apollo 11 and 13 were among the great missions flown with less computing power than your smart phones. Controls were analog and sending messages via pneumatic tubes was common.

NASA Co-Op This week I was accepted into NASA Johnson Space Center's Pathways Internship Program, what NASA calls their Co-Op program. What does this mean? I will be sworn in as a U.S. Government civil servant and switch between semesters studying Electrical Engineering and Computer Science at the University of Minnesota Duluth and working at NASA. My NASA updates will continue throughout my experience.

Dedicating my pencil sketch to the Apollo 11 anniversary!

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.

Good morning America and the whole wide world. Here is Pluto! Congratulations to New Horizon’s crew for their hard work and dedication. So inspiring that some of those on the mission have been with it since they were undergraduates in college! At 9pmET we get the first “phone home” pings from New Horizons on its mission status. Then for the next 16 months we get a waterfall of data from Pluto. Watch here: http://www.nasa.gov/multimedia/nasatv/

Watch NASA's NewHorizons Pluto Flyby TOMORROW Tuesday July 14th 6:30-7:30amCT on NASA TV