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High Altitude Thermal Control

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dc.contributor.author Patel, Karan Kakanur
dc.contributor.author Rakkappan, Maheshwari Kumar
dc.contributor.author Alhafni, Bashar
dc.contributor.author Carroll, Phillip
dc.contributor.author Hauge, Joshua
dc.contributor.author Zhang, Xuan
dc.contributor.author Sajeevan, Rochen Krishna Thashanath
dc.contributor.author Karkory, Abd Elfatah
dc.contributor.author Shah, Parth
dc.contributor.author Kumar, Arjun
dc.contributor.author Pallis, Jani M.
dc.contributor.author Lewis, Neal
dc.contributor.author Reed, Larry
dc.contributor.author Mestre, David
dc.contributor.author Pallis, James
dc.date.accessioned 2017-04-06T15:24:55Z
dc.date.available 2017-04-06T15:24:55Z
dc.date.issued 2017-03-24
dc.identifier.uri https://scholarworks.bridgeport.edu/xmlui/handle/123456789/1910
dc.description.abstract On September 1, 2016, a high altitude student platform (HASP) was launched from NASA’s Columbia Scientific Balloon Facility in Fort Sumner, New Mexico with 12 student payloads. The University of Bridgeport sent a robotic arm with three servo-motors and servo-motor testbed to the fringes of space. The objective was to test the motors at very low temperatures and in vacuum conditions. The payload has heaters and temperature sensors fitted on all its walls that can automatically respond to the thermal conditions to assure that the motors operate. en_US
dc.language.iso en_US en_US
dc.subject High altitude balloon en_US
dc.subject Robot en_US
dc.subject Thermal control en_US
dc.title High Altitude Thermal Control en_US
dc.type Presentation en_US
dc.institute.department School of Engineering en_US
dc.institute.department Shintaro Akatsu School of Design en_US
dc.institute.name University of Bridgeport en_US
dc.event.location Bridgeport, CT en_US
dc.event.name Faculty Research Day en_US

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