APEC 7/11: Torsion Cavitation Drives, ZPF Tech & Mass Displacement
Jennifer Nielsen will discuss torsion cavitation drives in the TUFTS model of physics, Gabriel Dias will discuss Boundary Conditioned Vacuum Interaction Systems and ZPF Tech research, and Denny Okudinani will be presenting on A Brief Historical and technical Look at Solid-State Spatial Mass Displacement. We’ll also hear updates from our lab partners, then close with an open discussion and Q&A with attendees.
12:00pm PT – Jennifer Nielsen – Torsion Cavitation Drives
Jennifer Neilsen is presenting a hypothesis that begins with the Standard Navier–Stokes equations failing to reproduce four key quantitative features of the Barger experiment that were published in 1964 and have never been retracted or explained away. In contrast, the TUFT model reproduces all four from first principles with the same equations that also predict the UAP performance envelope. She argues that not only does TUFT explain real physics that Navier–Stokes cannot, but also that the Barger 1964 experiment was not producing an acoustic analog of torsion, but instead an actual, macroscopic, low-energy spacetime torsion. In this hypothesis, the cavitation shells were the visible hydrodynamic signature of a real torsion domain wall.
1:00pm PT – Gabriel Dias – Boundary Conditioned Vacuum Interaction Systems
Gabriel Corradini Lourenço Dias presenting on Boundary Conditioned Vacuum Interaction Systems and introducing a diagnostics framework for dynamic electrodynamic environments. Gabriel is a volunteer with Douglas Miller’s ZPF Technologies startup, and will be discussing the team’s efforts to incorporate a huge level of governance into their research. This is focused on removing overstated claims and developing a solid diagnostics framework. Miller suggests that if all particles and subatomic particles are “jittered” by the ZPE and it’s responsible for keeping electrons in their orbits then it is a variable and a “third body problem” that is unaccounted for in certain areas of physics like fusion. Dynamic Casimir effects, Josephson Junction, and Aharanov-Bohm all justify further pursuing this. Even if the ZPF Array never produces thrust it would serve as a perfect measuring and diagnostics device of ZPE participation and organization.
2:00pm PT – Denny Okudinani – Solid-State Spatial Mass Displacement
Denny will be providing an follow up presentation to his earlier work on “A Brief Historical and Techincal Look at Solid-State Spatial Mass Displacement”. This includes principles that he has described that apply to the model used to explain the Schauberger Repulsine, along with research and experiments Denny has done to refine his model and provide insights into how implosion cab be used for solid-state mass displacement.
3:00pm PT – Lab Partners – Experimental Research Updates
Learn about hands-on engineering & technical research on advanced propulsion experiments by our lab partners. Mark Sokol’s team at Falcon Space is full engaged in Dynamic Nuclear Polarization research & testing; Drew Aurigema continues testing and refinement on the Exodus effect propulsion device, and Curtis Horn is focused on Mach effect propulsion on the MEGA-Drive team.
4:00pm PT – Open Discussion & Ad-Hoc Presentations
Conference guests interested in presenting experimental info to the group are invited to participate at this time, and our presenters will be available to take questions & discuss experiments.