At the Wallops Flight Facility in Virginia, NASA is working on scientific high-altitude rockets and balloons.
A rocket launches from NASA's Wallops Flight Facility on Wallops Island, Va. The facility, which NASA first began using in 1945 and took over in 1950 is the space agency's site for doing sub-orbital and satellite launches. On average, the site hosts a launch once a month, though sometimes teams from Wallops Flight Facility take their equipment and expertise on the road to do launches in other parts of the world in order to study specific scientific applications.
CNET reporter Daniel Terdiman visited the facility as part of Road Trip 2010. You can follow the entire project here.
Though most of its rocket launches are done on Wallops Island, Va., NASA's Wallops Flight Facility also takes its show on the road. In many years, that includes trips to Alaska to fire rockets into the aurora borealis in an attempt to study the phenomenon's scientific principles.
While a major part of the mandate at Wallops Flight Facility is building, launching, and studying rockets designed for sub-orbital flight or putting satellites in orbit, the NASA site is also where the space agency does most of its research into designing and crafting high-altitude balloons. Those balloons are used for hoisting scientific payloads high into the sky.
These are scale models of some of the balloons that are designed at Wallops Flight Facility.
Near Pad 0B is Pad 0A, which is currently under construction. That pad will be used to launch the Taurus 2 rocket, starting in 2011, which will be used to fly supplies to the International Space Station. Those rockets will be launched by commercial companies like Orbital and SpaceX.
This is a water tower that will house a water deluge system designed to allow rockets to dump water in order to dampen vibrations from heating when ignition begins.
Unlike those launched from Pad 0B, and other NASA launch pads, rockets constructed at Pad 0A will be stacked up horizontally, while lying on a ramp. When completed, they will be driven to the gantry and raised.
The Wallops Flight Facility command center. Here, NASA personnel and others invested in a launch can watch and monitor the progress of a rocket. For a satellite launch, the room will generally be full, while for the launch of a student rocket--which happens each summer when the facility hosts a program for university students--it may be just partially full.
For sub-orbital launches, the Wallops Flight Facility sends rockets aloft from three sheds like this one. They have roll-up doors so that motors and other elements of a rocket, including the payload, can be brought in from either end. Then, instead of moving the rocket, the shed is moved away on rails and the rocket is raised and launched.
Though it would rarely be used, NASA maintains a destruct button in the command center at Wallops Flight Facility that can destroy a rocket while it's in the air. This would be used if it is determined that a rocket is endangering the public.
On Thursday, students taking part in the third-annual RockOn program launched a sub-orbital rocket from the Wallops Flight Facility. Hours after the early morning launch, its pieces, including the tip, seen here, are brought back to the facility to be analyzed.
The two main stages of the student-launched rocket sit after being returned to the facility. The stages were then examined and taken apart so the students and their advisers could see the results of the their experiments.
Once the machining is finished, a rocket will be placed on this balancing machine, which is designed to spin it as weights are placed on it in different locations in order to make sure that payloads are properly balanced.
In 1985, the U.S. Navy returned to the Wallops Flight Facility after having left in 1959. Now, the Navy uses the facility for several things, including training. This oddly shaped building is used to train personnel on the electronics that will be integrated into the next-generation of Navy ships.
The Wallops Flight Facility is also shared by the National Oceanic and Atmospheric Administration, which utilizes these satellite dishes as part of its command and control system for weather satellites.