INDEPENDENT MEASUREMENT OF LIGHT’S FREQUENCY AND WAVELENGTH OPENS THE WAY TO A NEW ERA OF UNDERSTANDING THE UNIVERSE
In modern physics, the speed of light in a vacuum is considered constant and independent of the motion of the source or observer. This assumption forms the foundation of the theory of relativity and many cosmological models, including the Big Bang theory. However, new experimental approaches open up the possibility of treating light differently – that is, as a phenomenon in which frequency and wavelength are not necessarily related through the constant speed of light.
This report highlights the measurement of light frequency independently from its wavelength. Methods for such measurements are still under development. One example of a technologically simple method is described in the booklet The Light from Space:
Independent measurements of light frequency and wavelength shows that light from space arrives at different speeds. The motion of the source affects the frequency of light, but not its wavelength. The speed of light is also influenced by gravity, which alters the wavelength while keeping the frequency unchanged.
Given the observed variations in the speed of light, it is essential to reassess the validity of the theory of relativity and consider a return to Newtonian principles. Objective measurement of the frequency of light – and thus the speed of stars – calls into question the current view of the expansion of the universe. This may render the Big Bang theory and the need for dark matter obsolete. The universe is revealed to us through new measurements in its simple comprehensibility, which contrasts with today’s complex view of it.