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Creation, Separation, and the Mind - The Three Towers of Singularity: The Application of Universal Code in Reality
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by William E Wismann (Author), David E Martin (Author), Norbert Schwarzer (Author)
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Imagine not only to get the - sorry, not just the, but ALL - hydrocarbons out of the horrible mélange, but also result in completely clean sand and water, which resides as residual in the tar sands.
Imagine, that you will observe no significant change in temperature with regard to the essential reaction phase and that you will only require a little bit of heat for a final separation stage.
What sounds like a miracle is in fact just one of the amazing innovations we are going to consider in this book. Thereby, so it should explicitly be noted, is the set of various Polar Selective Agents so numerous and flexible that the same technology can principally be applied to a great variety of completely different separation processes. In fact, it looks like that we are able to actually clean and rejuvenate the earth with this technology.
But what might be even more amazing is the fact that the mathematical apparatus to describe the scene requires a "Theory of Everything" or "Quantum Gravity Theory" and it may come as a surprise that such a theory already exists. It had been derived by the great German mathematician David Hilbert over one hundred years ago. It produces Einstein's field equations, but also something else. This other "stuff" is Quantum Theory and both theories always resided in Hilbert's mathematical approach, but apparently nobody saw them there or even bothered to look properly.
Having such a theory provides us with the ability to go far beyond the original attempt to find a proper mathematical description for our most wonderous separation experiment, but actually allows us to attack questions like the modeling of the human mind, the working of socio-economic space-times and the fundamental aspects of creation.
RASA Energy Inc. is an environmental remediation company deploying the world's first ambient temperature and pressure hydrocarbon and materials processing technology. Reducing the carbon footprint for oil recovery and refining by as much as 85%, our Polar Selective Agent process addresses the myriad of challenges arising from the global effort to transform the energy sector. From cleaning up oil spills to plastics recycling to green refining, our technology exceeds the environmental targets for energy transformation marketplace. For 25 years, its founders have been at the forefront of cleaning the carbon industry starting with our work in desulphurization of oil at ambient temperature and pressure in Russia in the late 90s. Our current activity in removing hydrocarbons from Utah tar sands has proven to be the first environmentally sustainable, cost-effective solution in the history of tar sands and oil shale remediation.
While our commercial application of Polar Selectivity is immediately evident, what is of greater consequence is the mathematical principles underpinning this technology. Derived, in part, from German mathematician David Hilbert's work over a century ago, and critiquing the Einstein field equations, we propose extensions beyond "Quantum Gravity Theory" and "A Theory of Everything" by demonstrated that untested and unobserved assumptions have delimited the last 100 years of innovation in physics, chemistry, and mathematics. As presented in this manuscript, we consider fundamental aspects of "creation" or "manifestation" of phase observations of matter while considering the resulting implications on modeling the human mind, socio-economic space-time interactions and other foundational topics.
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RASA Energy Inc.'s molecular science technology, if successful and scalable, could potentially revolutionize several aspects of our world in profound ways:
### 1. Energy Sector:
- Sustainable Energy Production: By transforming hydrocarbons in a way that produces no waste and uses minimal energy, this technology could make fossil fuel processing more environmentally friendly or even enable the creation of new forms of sustainable energy from hydrocarbons without the traditional environmental downsides.- Carbon Footprint Reduction: If hydrocarbons can be managed with low environmental and economic costs, it could significantly decrease greenhouse gas emissions, aiding in global efforts to combat climate change.
### 2. Manufacturing and Material Science:
- Efficient Material Use: The ability to transform materials with precision could lead to more efficient use of resources, reducing waste and the need for raw materials, thus conserving natural resources.- New Materials: The technology might allow for the creation of novel materials with unique properties, potentially leading to innovations in electronics, construction, and other industries.
### 3. Environmental Conservation:
- Pollution Reduction: If the process truly generates no heat or waste, it could dramatically cut down pollution, including air, water, and soil contamination from industrial processes.- Recycling: Enhanced capabilities in material transformation could revolutionize recycling, turning waste into high-quality reusable materials more efficiently than current methods.
### 4. Economic Impacts:
- Cost Reduction: Lower energy requirements and no waste could reduce production costs across various industries, potentially making products cheaper to manufacture and more accessible.- Job Creation: New industries or transformations within existing ones could lead to job opportunities in research, development, implementation, and maintenance of this technology.
### 5. Global Trade and Resource Management:
- Resource Independence: Countries might reduce their dependence on certain raw materials, leading to shifts in global trade patterns and economic power dynamics.- Supply Chain Efficiency: With more efficient material processing, supply chains could become leaner, faster, and less vulnerable to disruptions.
### 6. Health and Safety:
- Reduced Exposure to Harmful Chemicals: If industrial processes become cleaner, there would be less risk of chemical exposure to workers and nearby communities.- Safer Products: Materials produced with less harmful by-products or through safer processes could enhance product safety for consumers.
### Challenges and Considerations:
- Scalability: The technology's real-world impact depends on its scalability. If it's only effective on a small scale, its transformative potential is limited.
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Balderdash
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- Adoption: There would be significant resistance or adaptation required from established industries, regulatory bodies, and markets.- Verification: The scientific community would need to rigorously verify the claims through peer-reviewed studies to ensure the technology does what it promises without unforeseen negative consequences.
The mysterious aspect of RASA's technology might stem from its departure from conventional chemical processes, its focus on molecular interactions at a fundamental level, and the ambitious scope of its applications. If it lives up to its potential, it could indeed be a game-changer, offering a new paradigm for how we interact with and utilize materials and energy. However, until more is known about the specifics of the technology, its efficiency, and environmental impact, the full extent of its transformative power remains speculative.
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Where else would people be from?
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