Dark Energy: A Dimensional Perspective Using the Einstein-Pythagoras Formula
Abstract
This report introduces a groundbreaking interpretation of dark energy, based on the Einstein-Pythagoras formula R = n·c f .
By linking dimensions, frequencies, and the speed of light, we propose that the cosmic microwave background (CMB) temperature of 2.725K represents not only a relic of the early universe but also the stabilizing force we identify as dark energy.
This force ensures the harmonic interaction of dimensions, maintaining the structure of space and time. All calculations are strictly performed using dimensional relationships and avoid external constants unrelated to the formula. 1 Introduction Dark energy has been described as a mysterious force driving the accelerated expansion of the universe. Its true nature, however, remains elusive. The cosmic microwave background (CMB), with a measured temperature of 2.725K, is often considered a remnant of the recombination era. In this report, we argue that this temperature directly corresponds to dark energy, acting as the stabilizing factor for the universe’s dimensional framework.
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- Cosmology and extragalactic astronomy
- Pacific Peoples astronomy and cosmology
- Astroparticle physics and particle cosmology
- Aboriginal and Torres Strait Islander astronomy and cosmology
- Pacific Peoples mathematical, physical and chemical sciences (excl. astronomy and cosmology)
- Aboriginal and Torres Strait Islander mathematical, physical and chemical sciences (excl. astronomy and cosmology)
- Te mātai arorangi me te mātai tuarangi o te Māori (Māori astronomy and cosmology)
- Ngā pūtaiao pāngarau, ōkiko, matū hoki - hāunga te mātai arorangi me te mātai tuarangi o te Māori (Māori mathematical, physical and chemical sciences - excl. astronomy and cosmology)
- Complex physical systems
- Particle physics
- Nuclear physics
