A NASA Terrier-Improved Malemute suborbital sounding rocket carrying the RockSat-X payload was successfully launched at 7:01 a.m. EDT, Saturday, April 18, 2015. The rocket carried experiments developed by undergraduate students from the University of Colorado in Boulder, Northwest Nazarene University in Nampa, Idaho, the University of Puerto Rico, the University of Nebraska in Lincoln and Virginia Tech in Blacksburg.
The next launch from Wallops is a NASA Terrier-Improved Orion in the early morning June 25.
RockSat-X 2015 Terrier Improved-Malemute Sounding Rocket Launch From Wallops
UPDATE (April 8, 2015). The RockSat-X payload being carried into space on a NASA Terrier-Improved Malemute suborbital sounding rocket is scheduled for launch between 6:30 and 10 a.m., April 18. The backup days are April 19 – 21. The launch was previously scheduled in March but was postpone because of unacceptable weather for launch and/or payload recovery. The rocket is carrying experiments developed by undergraduate students from the Universities of Colorado, Northwest Nazarene, Puerto Rico; Nebraska and Virginia Tech. The Visitor Center will open at 5:30 a.m. on launch day for viewing the mission and Ustream coverage on the Wallops site begins at 5:30 a.m.
Poor weather prevented a March 27 launch and high seas prevented an attempt March 28. The team will not attempt launch on the two remaining dates available, March 29 and 30, due to predicted high seas.
When launched, the experiments will examine technology development, microgravity science and the search for life in the upper atmosphere and near space during the suborbital mission, which will reach an altitude of nearly 94 nautical miles.
The experiments, which will fly aboard a NASA Terrier-Improved Malemute sounding rocket, were developed through the RockSat-X program, a collaboration with the Colorado Space Grant Consortium at the University of Colorado at Boulder.
Participating universities in this flight are the University of Colorado, Boulder; Northwest Nazarene University, Nampa, Idaho; the University of Puerto Rico; the University of Nebraska, Lincoln; and Virginia Tech University, Blacksburg.
Phil Eberspeaker, chief of the Sounding Rocket Program Office at Wallops, said, “We are pleased to continue our collaboration with the Colorado Space Grant Consortium in providing students from institutions across the United States the ability to fly their experiments in space.”
“This is the fourth flight of RockSat-X experiments. The quality of the experiments developed by the students shows they are prepared for science, technology, engineering and math (STEM) careers,” he said.
RockSat-X is the third tier in a multi-phase NASA program for providing flight experiences for community college and university students to improve their skills in developing experiments and payloads for spaceflight.
Tier One, called Rock-On, introduces students and instructors to payload development; Tier Two, RockSat-C, then allows them to build on this learning experience developing an experiment for flight.
Chris Koehler, director of the Colorado Space Grant Consortium, said, “RockSat-X is a great way for college students to put their experiments into space, giving them an experience that will help them in their future STEM-related careers.”
The University of Puerto Rico has participated in the three past RockSat-X launches, in addition to participating in the Rock-On and RockSat-C programs dating back to 2008.
Oscar Resto, rocket satellite specialist with the University of Puerto Rico, said, “The RockSat-X program empowers students’ creativity and propels them into future space development, innovating STEM concepts into advanced and elaborate experiments.”
Full NASA RockSat-X 2015 Launch Webcast From Wallops Flight Facility
The participating universities in this RockSat-X flight and their experiment descriptions follow.
University of Colorado Boulder (CUB):
The objective of this mission is to generate a sample of an immiscible alloy composed of 80% aluminum and 20% indium by mass to investigate the effect of solidification in microgravity on the microstructure. The powdered aluminum indium mixture will be melted via induction heating and the sample created in microgravity will be compared to ground samples after the flight.
Northwest Nazarene University (NNU):
The mission objective is to release several 3D printed airfoil shapes into space to test for flight stability in low atmospheric conditions. In addition, flexible sensors are mounted to the airfoil structures and acceleration and temperature data is transmitted via RF communications from the airfoil to the main experiment structure. This data will help determine ideal structures and sensor capabilities for data reconnaissance of an extraterrestrial body.
University of Puerto Rico (UPR):
The payload will include an impact detection system with the use of a Piezo ElectricSensor and an aerogel to collect micrometeorites. The system deploys the sterilized collect system into the space environment during the flight, which is later retracted and sealed before re-entry. The system contains organic polymer collectors that will gather amino acids, proteins and DNA to potentially prove the presence of life at 43 to 99 miles above Earth. The micro-particles will be analyzed via next generation genomics.
University of Nebraska Lincoln (UNL):
The mission objective is to analyze the difference between crystal growth in microgravity and normal gravity on Earth. This will be accomplished by crystallizing super saturated samples of sodium acetate trihydrate (SAT) while the experiment is in the microgravity environment.
Virginia Tech (VT):
The experiment aims to test two mechanisms. The first is the deployment of the VT Space Pressure Sensor Aperture Cover Release Mechanism, which utilizes a thermal cutting device that releases an intricate latch system for use in future projects. Second, an Optical Nitric Oxide Sensor will be used to determine NO concentration at high altitudes. Additionally, the experiment houses a system of cameras for recording panoramic video which will be used to create a virtual reality simulation of the flight.
Video Payload (XHED):
The University of Colorado Boulder video payload is designed to capture HD video of the experiments during flight operations. This is done using eight HD video cameras, four of which are deployed to obtain a better view of the experiment section before being retracted for re-entry.
The payload, with the experiments, will descend by parachute and is expected to land 14 minutes after launch in the Atlantic Ocean, about 63 miles off the Virginia coast. The data, including the video, from all the experiments will be stored on-board the rocket’s payload and will be provided to the students later in the day following recovery.
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