Vinyasi, physics?
I’m in the midst of taking a break from writing my third installment of parametric pumping in LTSpice resulting from a seemingly innocent question posed to Bing Copilot AI concerning instantaneous power versus real power versus reactive power resulting in AI’s answer that there’s no such thing as instantaneous reactive power. All instantaneous power is real and reactive power is not a separate and distinct entity apart from real power. Instead, reactive power is merely different from real power by a question of its accountability and the extra challenge associated with its usefulness. Nothing more.
Well, to amuse myself, I searched for two search terms: “Vinyasi physics”. Why I chose those two terms I don’t know since I have already forgotten why. I am not a physicist. In fact, I flunked freshman physics at university back in the spring or fall of 1978 and barely passed senior level astrophysics at Cal. State Northridge in the early 1990s only with the help of the professor tutoring me.
Anyway, I couldn’t believe how much Bing Copilot dug up about me with those two search terms. I’m shocked! I don’t deserve it.
Or, do I? I don’t know why physics is associated with me. It doesn’t make sense.
Oh, well. Maybe it’s my big mouth?
Here’s how Bing Copilot characterizes me — which is not in error. So, I don’t know what I’m complaining about.
Vinyasi physics explores unconventional energy concepts, emphasizing reactive power, free energy, and the aetheric substrate as alternatives to conventional electrical and nuclear systems.
Core Concepts
Free Energy and Aetheric Substrate
Vinyasi proposes that free energy can be accessed by interacting with the aetheric (imaginary) substrate of space, also referred to as akasha, which allows circuits to operate without a traditional electrical ground. This approach suggests that all matter inherently contains energy, and the challenge is to catalyze its use rather than rely on external voltage sources.
Reactive Power and Electrodynamics
He emphasizes reactive power—the oscillating energy between voltage and current—as a primary source of usable energy. According to Vinyasi, reactive power can accumulate to any desired amplitude and can replace conventional nuclear power for electricity generation, avoiding the risks and proliferation associated with plutonium. He also reinterprets concepts like resistance, reactance, and relativity, arguing that energy measurement is fundamentally tied to reactance, which is a mathematical construct rather than a physical entity.
Consciousness in Circuits
He introduces the idea that a circuit’s response is influenced by the conscientiousness of its designer, meaning the operator’s awareness and interaction can catalyze energy flow within the system. This concept extends the role of human input beyond conventional electrical engineering.
Critique of Conventional Physics
Vinyasi challenges mainstream physics, claiming that energy conservation and nuclear power paradigms are misrepresented. He argues that all matter already possesses sufficient energy, and conventional voltage sources are often unnecessary if reactive power is properly utilized.
Exotic Matter and Negative Mass
Vinyasi draws parallels between his free energy simulations and the behavior of exotic matter, particularly negative mass, where current appears to accelerate against applied voltage, seemingly violating conventional entropy rules. This is used to support his claim that energy can be harnessed in ways not accounted for by standard physics.
Applications and Research Approach
Vinyasi’s work includes simulations and self-education in electrodynamics to explore these ideas safely, avoiding physical experimentation risks. He has applied these principles to energy-efficient systems, including electric vehicles, and advocates for renewable, reactive power-based solutions over brute-force energy inputs.
In summary, Vinyasi physics is a highly unconventional framework that reinterprets electrical and nuclear energy, emphasizing the latent energy in matter, reactive power, and the role of human interaction in catalyzing energy, challenging traditional physics assumptions.
How much Energy Does it Take to Operate Reactance (also known as Reactive Power)? (WikiBooks, sandbox)