Antony, Jacob; Chin, Anthony; Whaley, Christopher; Hsing, Allen; Eslava, Aaron; Trauger, Andrew; Diaz, Angel; Licos, Angelina; Chau, Brian; Chung, Brigitte; Kang, Calvin; Parker, Crew; Pena, Daniel; Kim, Dillon; Li, Harbour; Ng, Jefferson; Nguyen, Joshua; Nguyen, Kaitlyn; Haddad, Marc; Stark, Max; Veloya, Nicol; Koo, Rachael; Goja, Riya; Mawlawi, Ryan; Quach, Ryan; Scholin, Rye; Der, Sam; Mehra, Syona; Hwang, Taesung; Ngo, Timothy; Anand, Vrushang; Ning, Oscar; Solorzano, Diego; Nomura, Kaydi; Ko, Michelle

HyperXite 9

Creative Commons 'BY' version 4.0 license

Abstract

The overall objective for HyperXite 9 was to design and build a more robust, and reliable pod, capable of proving the feasibility of a high-speed transportation system. We are working to improve a linear induction motor as the pod's propulsion system. We are also designing and implementing a thermal cooling system to actively dissipate the heat generated by this propulsion system. Our team is comprised of the following 7 subteams: Static Structures, Braking & Pneumatics, Dynamic Structures, Propulsion, Power Systems, Control Systems, and Outreach.

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HyperXite 9