A group of Texas hardware hackers and space aficionados gathered in Dallas at the this weekend. Their goal? Learn how to build experiments to take into space.
Five years ago, if you wanted to send a science experiment into space, you either needed access to the international space station or several million dollars. Today, you just need a good idea, or a few grand.
“Coming up in the next six months, you’ll be able to design your own experiment in a small box, put it on a vehicle and for several thousands of dollars, fly it to space and back," says Andrew Nelson.
– it’s one of the leading private space-flight companies. Within the next year, XCOR plans to launch its first of thousands of suborbital flights on its two-seat spacecraft called the Lynx. The spacecraft is being built in Mojave, Calif.; it (a move another private space flight company, ). The Lynx will carry one passenger and a dozen or so science experiments into .
“People want to understand better how, for example, planets formed in the early days of our solar system," Nelson says. "So they put together materials in a box, in and they film it and watch how it comes together.”
That’s just one possibility. Some people want to test electronics in the vacuum of space. Others, to grow crystal proteins in microgravity that could give clues to future cancer treatments.
Space Hackers Dream Big
At the , several dozen hackers, students and scientists are brainstorming ideas for experiments they could send into space.
Jan Stolze, a math teacher at Carroll High School, wants to do an experiment with polymers -- plastics and other materials we use on a regular basis.
“I’ve actually applied to be an astronaut twice but I have a heart condition and bad eyes, and I’m old now so I could probably never be a NASA astronaut but this is something maybe I could do,” she says.
There are some guidelines Stolze will have to follow for her polymer experiment. For one thing, it’ll have to fit into a clear the size of a Chinese takeout box. Most of the experiments will be automatic – programmed to turn on once they hit near zero gravity. If they need adjusting, a citizen astronaut who is on the spacecraft with the pilot will be responsible.
Someone like Michael Johnson, of De Soto. Johnson, who was outfitted in a blue and red space jump suit, is among a handful of citizen scientists the Dallas-based nonprofit selected to go on XCOR’s Lynx and operate ten experiments. He's also an aviation teacher at Irving and DeSoto high schools.
“So my ideas are going to come from [my] students." Johnson says. "I’m going to teach them how to work with the electronics and how to do the programming and just see what can come from them.”
Citizens in Space will select 100 science experiments, so break out your tools and get tinkering.
*Find out more about Citizens in Space, and future workshops .
