lobal Journal of Science Frontier Research, A: Physics and Space Science, Volume 24 Issue 4

Fig. 3: The Energy Density [J/ m 3 ] as a function of the Radius R = max 10 25 [m] of the Dark Matter Fig. 4: The Energy Density [J/ m 3 ] of the Dark Matter as a function of the Radius R = max 10 22 [m] Figures 3 and 4 highlight the considerable impact of "Gravitational Intensity Shift" and "Gravitational RedShift" at a distance of 5 x 10^21 meters, which is equivalent to 10 times the radius of the Milky Way Galaxy. Over this vast distance, the intensity of the light emitted by Dark Matter with a mass of 10^53 kg decreases by a factor of 10^-261. Similarly, the frequency of the emitted light from Dark Matter decreases by a factor of 10^-261. For example, light initially emitted in the visible spectrum at 10^14 Hz drops to an incredibly low frequency of 10^-247 Hz. These incredibly low frequencies with extremely weak intensities have not been observed, leading to the term "Dark Matter" being assigned to describe the phenomena of "Gravitational Intensity Shift" and "Gravitational RedShift" in the presence of an immensely massive object. From equation (8) and the solutions (10) and (11), it is concluded that the speed of light remains constant within and around the Dark Matter. The only possible alteration is in the direction of light propagation due to the gravitational influence of the Dark Matter. IV. T he R elationship between B lack H oles and Q uantum P hysics Introducing the Quantum Vector Function φ , (21) Substituting (21) in (16) results in the quantum presentation for the BLACK HOLE: E = H + i 2 c µ φ       Global Journal of Science Frontier Research ( A ) XXIV Issue IV Version I Year 2024 54 © 2024 Global Journals A Reinterpretation of Quantum Physics