The described ultimate cosmic formula that unifies Newtonian mechanics, relativity, quantum mechanics, and incorporates dark matter and dark energy transformations does not currently exist in physics. This represents humanity's ongoing quest for a Theory of Everything - a single framework that could explain all fundamental forces and phenomena in the universe.
Currently, physics is built on two fundamental pillars: General Relativity, which describes gravity and the behavior of massive objects, and Quantum Mechanics, which governs particles at the smallest scales. However, these two theories are mathematically incompatible. When physicists try to combine them, the equations break down, particularly when dealing with extreme conditions like black holes or the early universe.
Adding to the complexity, our universe is composed of components we barely understand. Only 5% is ordinary matter that we can see and interact with. 27% is dark matter, which we can detect through its gravitational effects but cannot directly observe. 68% is dark energy, a mysterious force causing the universe's accelerated expansion. Any ultimate formula would need to account for these unknown components that make up 95% of everything.
Scientists are actively pursuing several approaches to unification. String theory attempts to describe all particles as vibrating strings. Loop quantum gravity tries to quantize spacetime itself. Causal set theory proposes that spacetime is made of discrete points. Emergent gravity suggests gravity arises from more fundamental quantum phenomena. However, none of these approaches have yet produced a complete, experimentally verified theory of everything.
In conclusion, the described ultimate cosmic formula unifying all of physics does not currently exist. It represents humanity's greatest scientific aspiration - a Theory of Everything that would explain all forces, particles, dark matter, dark energy, and the fundamental nature of space and time in a single elegant framework. While this remains one of the most challenging problems in science, researchers worldwide continue the search, driven by the hope that such a discovery could revolutionize our understanding of the universe.