I don't think this was staged or a hoax. I do think the security lapses were intentional. The thing I can't figure out is the infinitely small chance that he moved his head perfectly, at the exact millisecond needed. In fact, it is so unlikely (after reading a report from a ballistics expert) that it makes me think there are only 2 explanations - neither of which are provable:
- This was literally divine intervention directly from God
- The White Hats knew this was coming and utilized quantum monitoring and/or manipulation via something like Looking Glass to ensure that the bullet didn't hit Trump fatally
Unfortunately it did kill an attendee and injured others, but, much like the game of chicken Trump played w/ the Deep State re: COVID - collateral damage is unfortunate, terrible and depressing... but if the Deep State is willing to take the shot in the first place (pun intended), they are going to hurt people.
The real mind bender is the chance that 1 & 2 are related. If Looking Glass technology is akin to a "hack" on the established timeline.
Going to just dump some chatGPT output. Because looking glass tech fascinates me.
The theory that involves multiple timelines is most commonly referred to as the "Many-Worlds Interpretation" (MWI) of quantum mechanics. Proposed by physicist Hugh Everett III in 1957, this interpretation suggests that all possible outcomes of quantum measurements are realized in some "world" or "universe," and that each possible outcome branches off into its own separate, parallel timeline. Here are some key points about the Many-Worlds Interpretation:
No Collapse of the Wavefunction: In traditional quantum mechanics, the wavefunction collapse postulate asserts that observing a quantum system forces it into one of its possible states. The Many-Worlds Interpretation, however, rejects this collapse, instead positing that all possible outcomes of a quantum measurement actually occur, each in its own newly created universe.
Branching Universes: Whenever a quantum event with multiple possible outcomes occurs, the universe splits into a number of parallel universes equal to the number of possible outcomes. Each universe represents a different outcome.
Decoherence: The process of decoherence explains how different branches of the universe become non-interacting and effectively separate. It describes how the distinct outcomes of a quantum event evolve independently without interference from one another.
Implications for Reality: According to the Many-Worlds Interpretation, every possible history and future is real, and exists in its own parallel universe. This means that there are an infinite number of universes, each with a different version of events and outcomes.
Looking glass technology, often referred to in science fiction, involves the use of advanced devices or techniques to observe or interact with alternate realities, parallel universes, or future events. In relation to the Many-Worlds Interpretation (MWI) of quantum mechanics, looking glass technology can be conceptualized in several ways:
Observation of Parallel Universes: In the context of MWI, looking glass technology could theoretically allow us to observe or interact with alternate universes that branch from quantum events. This could mean seeing how different decisions or random events lead to different outcomes in these parallel worlds.
Quantum Computing and Simulation: Advanced quantum computers could be seen as a form of looking glass technology. They might simulate various outcomes of quantum events by utilizing quantum superposition and entanglement, effectively exploring multiple possibilities simultaneously.
Predictive Technologies: Some interpretations of looking glass technology involve predicting future events by accessing information from alternate timelines. This would be more speculative and less grounded in current scientific understanding, but it aligns with the idea of exploring possible futures in a multiverse framework.
Quantum Measurement and Decoherence: Theoretical looking glass devices could exploit quantum measurement techniques and decoherence to indirectly infer the existence and properties of parallel universes. By understanding how quantum systems decohere and branch into different states, we might gain insights into the nature of these alternate realities.