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Aerospace Catalyst Experiences for Students Student Ballooning Course. Mark Becnel Kris Jarvenpaa Stefan Sicinschi University of New Orleans May 21, 2009. LaACES. Program Goals. An opportunity to design, build, and fly a payload to reach 100,000 ft Course with 4 sections: Electronics
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Aerospace Catalyst Experiences for Students Student Ballooning Course Mark Becnel Kris Jarvenpaa Stefan Sicinschi University of New Orleans May 21, 2009 LaACES
Program Goals • An opportunity to design, build, and fly a payload to reach 100,000 ft • Course with 4 sections: • Electronics • Programming • Ballooning • Project Management
Mission Objectives Our primary objective is to compare the efficiency of thin film and flat panel solar cells relative to altitude, hence increased Solar Radiance. The secondary objective is to compare the amount of UV radiation to altitude.
Science Objectives Experiment 1, determine the relative efficiency of solar cells at higher altitudes. By using two different types of solar cells, arranged in comparable positions, we will calculate the relative efficiency throughout the flight.Experiment 2 is to document the levels of UV radiation compared to altitude. The design compares two comparable testing systems with a single filter. This design should allow us to plot UV radiation based on altitude.
Technical Objectives The technical goals involved are remarkable. As a team, Team University of New Orleans will develop skills with solar systems, sensors, programming, analysis, and documentation. We are able to test insulation methods, calibrate instruments and recording devices, and exercise skills in circuitry.
Upgrades Raise Recording Frequency to Document Oscillations or Inductance to eliminate oscillations
Thank you • UNO Physics • Dr. C. Gregory Seab, Dept. Chair • Mr. Larry Blanchard, ACES Advisor • Faculty and Staff • ACES • All involved with the program and flight. • NASA, Columbia Scientific Balloon Facility