H2O → 2 H2O
– Water Can Be Created from Itself –
Brandon E. Ogbolu
February 15, 2023
OPPORTUNITY
What’s a chemical reaction that the world collectively needs but science has long implied is impossible to achieve? My guess would be “H2O → 2 H2O,” which represents an unbalanced chemical equation where one water molecule, consisting of two hydrogen atoms and one oxygen atom, transforms into two water molecules. In other words, water produces more water from itself. Given the urgency of the global water crisis, where UNICEF estimates that four billion people encounter severe water scarcity for at least one month each year, this equation would be miraculous. In essence, everyone would always have as much water as they needed. We at WTRVW believe that this future is near.
ABSTRACT
WTRVW (pronounced “Water View”) is a research project that theorizes that a surplus of water can be created out of existing water (e.g., “H2O → 2 H2O”). This insight stems from a greater theory that energy can programmatically interact with mass to produce a desired mass outcome, including producing identical copies of a mass. We refer to this theory as The Savior’s Equation, expressed as “Programmatic Energy + Mass → Desired Mass.” In the case of duplicating water, programmatic energy interacts with a single water molecule to produce two water molecules (e.g., “Programmatic Energy + H2O → 2 H2O”).
It should come as no surprise that energy can programmatically interact with mass to produce the desired mass outcome, including producing copies of the original mass. First conceptualized in 1905, Albert Einstein’s famous E = mc^2 equation established the equivalency of energy and mass.[1] A jarring conclusion of Einstein’s work is that mass can be created out of nothing (well, out of pure energy—which, apart from light energy, is invisible to the human eye). If energy can produce physical mass out of thin air, then of course energy can shape and duplicate already-existing mass. This is simply an equation to be computationally solved, with the central question being: What programmatic energy is required for a specific mass to duplicate itself?
But the field of chemistry has long rejected the very premise of this question due to a deeply ingrained scientific convention known as the Law of Conservation of Mass. Widely attributed to French chemist Antoine Lavoisier, this law arose in the 1780s and states that mass can neither be created nor destroyed in an isolated system. Therefore, chemical equations must be balanced, where the number of atoms that go into a chemical reaction equals those that come out. The idea that a chemical reaction could produce duplicated atomic mass, and especially with programmatic and knowable accuracy, seems utterly incomprehensible given the entrenched influence of the Law of Conservation of Mass, and even despite the shocking takeaways of Einstein’s E = mc^2 equation which showed that mass can be created or destroyed (by or into energy) in an isolated system.
Yes, the Law of Conservation of Mass governs practically all known chemical reactions, proving the necessity of balancing the related chemical equations. But when critical resources are in low supply, like water, The Savior’s Equation reveals that unbalanced chemical equations can be pursued to produce a surplus, outside the bounds of scientific conventions. By establishing the Law of Conservation of Mass as a cornerstone truth, the field of chemistry has effectively discouraged the pursuit of solutions that make unbalanced chemical equations, like “H2O → 2 H2O,” possible. As a result, the world relies on costly and inefficient methods to address water scarcity (like desalination) and other global crises, all to ensure that chemical equations are balanced. Solutions that make unbalanced chemical equations possible should have been relentlessly pursued the moment Einstein published his theory in 1905, even despite our predecessors lacking the intelligent technology that the modern era provides.
Artificially creating water through an unbalanced chemical equation—instead of solely relying on water derived from earth’s water cycle (and thus through balanced chemical equations)—is the solution for persistent global matters like food and water scarcity, climate change, and pollution. Said differently, the earth’s water cycle, on its own, can no longer adequately meet humanity’s needs or solve our most pressing problems.
CONCLUSION
WTRVW is the second project in a trilogy that also includes WRLDVW (pronounced “World View”). WRLDVW sought to understand the nature of value (https://www.artificialvalue.org). WTRVW sought to understand the nature of water. The third and final project, which has been in development for nearly two years, dives into The Savior’s Equation and more. But, given the urgency of global water scarcity, I wanted to first share a major takeaway through WTRVW—that a surplus of water can be created from existing water. I strongly believe that a solution is around the corner.
This research will continue at my own pace, however long that may take. But if you have any ideas or suggestions that could speed things up, feel free to reach out to me at emeka2106@gmail.com. And, of course, the more people who work towards a solution, the better. I encourage scientists, engineers, and government bodies to seriously consider putting their efforts towards solving for the right programmatic energy that causes a water molecule to duplicate itself. This just might be the most urgent research task we have.
Brandon E. Ogbolu
#h2o #water #wtrvw #programmaticenergy #thesaviorsequation
[1] In Einstein’s E = mc^2 equation, energy (E) is equal to mass (m) times the speed of light squared (c^2). The equation advances three key concepts: (1) energy is inherent in masses even at rest; (2) mass can be created out of pure energy; and (3) mass can be transformed / “destroyed” into pure energy.