How does energy management in a traditional leg landing differ from the proposed aerial catch landing mechanism?
Answer
Leg landings dissipate velocity into the ground via crushable structures or hydraulic damping within the legs
A leg landing dissipates the final velocity component into the ground using structures designed to deform; the catch system transfers that energy into the fixed mass of the launch tower.
#Videos
How Does SpaceX Recover and Reuse Falcon 9? - YouTube
SpaceX's Starship Launch and Recovery of Super Heavy Booster ...
How SpaceX's Booster Recovery Droneships SHOCKED ... - YouTube
How SpaceX Starship Booster Heavy Recovery Shocked the whole ...
Related Questions
What is the primary goal of the SpaceX Starship program?How does the recovery ambition of the Starship system fundamentally differ from previous reusable rockets like Falcon 9?Which recovery method for the Super Heavy booster represents a calculated engineering trade-off prioritizing rapid turnaround?Under what condition might SpaceX intentionally target an ocean splashdown for the Super Heavy booster during test flights?What is the typical fate of a Super Heavy booster after an intentional, controlled ocean landing during testing?Which structures are utilized by the Super Heavy booster to control its orientation and trajectory during descent through the atmosphere prior to landing?How does energy management in a traditional leg landing differ from the proposed aerial catch landing mechanism?What precision requirement is demanded of the Super Heavy booster relative to the mechanical arms for a successful aerial catch?What is the target turnaround time goal for the Starship system refurbishment?What complex maneuver is required for the long-term recovery vision of the Starship upper stage?