Engineering
Architecture
Our pod's design is driven by specialized technical units across three core tracks: Mechanical, Electrical, and Business. Precision engineering and rigorous system integration define our approach to velocity.
Structures
Designing the aerospace-grade chassis and aerodynamic aeroshell. Ensuring structural integrity under immense loads while minimizing mass.
VIEW SPECS arrow_forward UNIT-M2
Braking
Developing fail-safe friction and eddy-current braking systems capable of decelerating the pod from sub-sonic speeds within strict spatial parameters.
VIEW SPECS arrow_forward UNIT-M3
Magnetics
Engineering the magnetic levitation and linear induction motor systems that lift and propel the pod along the track without physical contact.
VIEW SPECS arrow_forward
ECC
Electronics, Controls & Communications. Programming the pod's brain — embedded systems, state machines, sensor fusion, and high-bandwidth telemetry links.
VIEW SPECS arrow_forward UNIT-E2
Power Systems
Architecting high-voltage battery packs and power distribution networks. Managing thermal risks and optimizing energy delivery to all critical subsystems.
VIEW SPECS arrow_forwardBusiness
The operational backbone of Cornell Hyperloop. Our business team manages sponsorships, outreach, and team operations — sustaining and growing our presence in the broader engineering and innovation community.
TEAM · 2025