Mini Vortex Rocket Engine (M.V.R.E) Atmospheric LFO variant
Goal: Design a handheld liquid rocket engine that uses ethanol and compressed atmospheric air
Personal Lifting Exoskeleton
Goal: Design an affordable, easy to build modular, powered exoskeleton that specializes in lifting 100kg at minimum
Personal Mobility Exoskeleton
Goal: Design an unaffordable, but easy to assemble hammer that can smash things really well.
Download of full 3D model and blueprint will not be released until safety requirements have been met
Goal: Design an affordable, easy to build modular, powered exoskeleton that can accelerate user up to 60 km/h OR improve vertical jump height and provide bursts of speed.
Standardized Capacitor Backpack
Goal: Design a rechargeable, lightweight backpack capable of containing and discharging large amounts of electricity. Must include safety measures such as automatic ejection in case of puncture as well as overcharging countermeasures
RESULT: A theoretical untested hammer with a simple, incomplete square aerospike engine. The thrust is dependent on the pressure of liquid oxidizer (blue) and isopropyl alcohol (red) being fed into the combustion chamber. Ignition is started by a spark plug at the tip of the injector plate.
NOTE: Current aerospike design is unoptimized as of now
WARNING: Do not swing at living organisms