WORLD
Iron Man meets Star Trek: Space diving suit in development
Baku, May 30 (AZERTAC). Science fiction may well become reality with the development of a real lifeIron Man suit that would allow astronauts or extreme thrill seekers to space dive from up to 62 miles (100 km) above the Earth‘s surface at the very edge of space, and safely land using thruster boots instead of a parachute. Hi-tech inventors over at Solar System Express (Sol-X) and biotech designers Juxtopia LLC (JLLC) are collaborating on this project with a goal of releasing a production model of such a suit by 2016. The project will use a commercial space suit to which will be added augmented reality (AR) goggles, jet packs, power gloves and movement gyros. So where have we seen this before? If you are a Trekker, you will remember the scenes from 2009's Star Trek (The Future Begins) where James T. Kirk, Hikaru Sulu and Chief Engineer Olson performed a space dive to the Narada's drill platform. They jumped from a shuttle craft above planet Vulcan wearing high tech suits and used parachutes to land on the rig. “Super” Trekkers will also know about the space dive scene cut from the 1998 Star Trek Generations movie and the holodeck simulated "orbital skydiving" in Star Trek Voyager (Episode 5x03), also in 1998. More recently the Iron Man movies have highlighted Tony Stark, a fictional comic book hero, who invents and uses a powered exoskeleton-like armor that defines him as the super hero “Iron Man." The key elements of Stark’s suit are the jets situated in the boots and the repulsors located in the gauntlets. The repulsors in the 2008 movie are used as a form of propulsion and as steering jets, though they can also be used offensively. In real life we have Felix Baumgartner, an Austrian skydiver, daredevil and BASE jumper who set a world record for skydiving an estimated 24.24 miles (39 km), reaching a speed of 843.6 mph (1,357.64 km/h), or Mach 1.25, on October 14, 2012. His jump from a helium balloon in the stratosphere set the altitude record for a manned balloon flight, parachute jump from the highest altitude and greatest free fall velocity. His suit was designed to provide protection from temperatures of -90° to +100° F (-68° to 38° C) and was pressurized to 3.5 pounds per square inch or roughly equivalent to the atmospheric pressure at 35,000 feet (10,668 meters). The scientists and developers at Sol-X and JLLC are working on a suit that will enable space divers to jump from the Kármán line, which lies at an altitude of 62 miles (100 km) above sea level. This will involve descending through the vacuum of space, which is quite a different challenge than a dive that begins in the relative thickness of our planet’s lower atmosphere. In order to achieve their goals, the team must overcome many technical difficulties. The suit must be protected against hostile temperatures, pressures and lack of oxygen. At the heights involved, low pressure may cause decompression sickness or ebullism.