DIDA in Action
DIDA has a track and a moving projectile, usually a ball. The setup uses a unique geometry to reinforce the inertia supplied to the system by an outside force. Once the ball is propelled to speeds above 400 ft/sec the potential to harvest this inertia becomes an option. We rely on a feed back arrangement to harvest some inertia on every cycle. Grok projected the potential of DIDA via a crude design that created the framework to apply the math in this example by following standard conservation of momentum principles. See the math Grok developed that displays the groundwork for propulsion.
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We are looking for partners to collaborate on the DIDA development project. Together, we can innovate and lead the propulsion industry into a brighter future.
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