The Savior's Equation
– Identifying the Energy Source to Attain a Desired Mass Outcome, Such as Replicating Water Molecules, Obliterating Carbon Dioxide Molecules, or Transforming Carbon Monoxide Molecules into Oxygen Molecules –
Brandon E. Ogbolu
August 15, 2023
I propose a potentially new scientific law that clarifies the relationship between mass and energy, as originally conceptualized in 1905 by Albert Einstein’s E = mc^2 equation. This law is referred to as The Savior’s Equation, which states that energy can programmatically interact with mass to produce a desired mass outcome, including mass replication, obliteration, or transmutation (think alchemy). The Savior’s Equation is expressed as “Programmatic energy + Mass → Desired mass.”
The equation’s versatility is demonstrated by its application in various scenarios: (1) duplicating water molecules to address water scarcity, e.g., “Programmatic energy + H2O → 2 H2O”; (2) eradicating carbon dioxide molecules (and with no energy released) to reduce greenhouse gasses and global temperatures, e.g., “Programmatic energy + CO2 → 0 CO2”; or (3) converting, say, carbon monoxide molecules into oxygen molecules to achieve healthier air quality levels, e.g., “Programmatic energy + CO → O2.” The chemical equations remain unbalanced in all three scenarios, with differing numbers of atoms in the reactants (left side of the arrow) and products (right side of the arrow). Thus, and counter to the teachings of today’s science, unbalanced chemical equations are acknowledged as legitimate and worthy of pursuit, primarily to address global issues like resource scarcity, climate change, and pollution.
The Savior’s Equation can be computationally solved, with the central question being: What programmatic energy is required to achieve the desired result for a specific mass? Assessing the energy required to do a specific task requires an assessment of the nature of energy. Such analyses are possible with contemporary modeling techniques. However, the crucial step is to exclude the Law of Conservation of Mass (which solely deems balanced chemical equations as acceptable) from influencing the model’s results, even though every chemical reaction incorporated into the model to assess the nature of energy adheres to this law.
Solving The Savior’s Equation will propel the world forward in two major ways: (1) an enriched comprehension of the nature of energy, including its ability to replicate, obliterate, and transform mass; and (2) an expanded ability for humanity to transcend the inherent limits of Earth, including its natural resources and molecular makeup, to achieve global sustenance, productivity, and environmental goals.
I seek to establish a team to solve The Savior’s Equation within two years. This endeavor involves the recruitment of a Computational Chemist and a Computational Physicist.
If you or anyone within your sphere of influence may find this opportunity intriguing, please don’t hesitate to get in touch or share this message. My email is emeka2106@gmail.com.
At energystia.org/wtrvw is an intro to the subject matter solely through the lens of water duplication (WTRVW). Written in February 2023, this document offers some contextual background.
Brandon E. Ogbolu