Soumendra Nath Thakur
ORCiD: 0000-0003-1871-7803
07-09-2024
This mathematical presentation explores the behaviour of photons in strong gravitational fields, revealing a symmetrical relationship between photon energy changes and gravitational fields. The equations:
E = hf; ρ = h/λ; ℓₚ/tₚ (Equation 1)Eg = E + ΔE = E − ΔE; E = Eg (Equation 2)Eg = E + Δρ = E − Δρ = E; h/Δλ = h/−Δλ (Equation 3)Eg = E; Δρ =−Δρ; ℓₚ/tₚ (Equation 4)
demonstrate the consistency of photon energy in gravitational fields, highlighting the symmetrical effects of wavelength changes due to gravity. This symmetry contradicts general relativity's predictions, suggesting that the theory might be incomplete or incorrect in this context. By engaging with alternative perspectives and addressing the contradictions raised by these equations, we can foster a deeper understanding of the universe and its underlying laws, ultimately working towards a more complete and accurate description of reality.
The pursuit of knowledge in science is exemplified by valid and established lines of inquiry that challenge the concept of curvature in general relativity. This ongoing refinement of our understanding of the universe is a testament to the dynamic nature of scientific inquiry. Researchers and theorists have proposed alternative perspectives on spacetime, gravity, and reality, aiming to address general relativity's limitations and inconsistencies.
The observed symmetry, where photons gain energy approaching a gravitational well and lose energy leaving it, may hold the key to refining our understanding of spacetime and gravity. This phenomenon, described by the equations Eg = E + ΔE = E - ΔE (Equation 2) and h/Δλ = h/-Δλ (Equation 3), contradicts general relativity's predictions and aligns with other scientific disciplines and mathematical frameworks.
This discrepancy suggests that general relativity might be incomplete or incorrect in this context, warranting further exploration and refinement. Alternative theories, such as quantum gravity and flat spacetime theories, may offer a more comprehensive explanation for this phenomenon. By engaging with these diverse perspectives and addressing the contradictions raised by the equations, we can foster a deeper understanding of the universe and its underlying laws, ultimately working towards a more complete and accurate description of reality.
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