The recent period has been exciting in physics and cosmology. The hypotheses of dark matter and dark energy etc. are great challenges for science. These observations might open for new perspectives on physics and current theories may need to be reconsidered. The document is an attempt to do that.
In Gravitation, Energy and Time (GET) energy is used as the common denominator to explain gravitation. The core of GET is based on the following main assumption:
Matter decay and continuously radiates gravitational particles (gravitons) in all directions – which is the origin of gravitation.
In GET all aspect of gravitation is explained by local energy interaction. The model may be seen as a hybrid between Newtonian physics and additions from modern physics. The dynamic vector field of gravitons, generated from matter, creates a dynamic landscape of energy that rules the movements of other objects in space.
Plausible arguments show that GET is in line with the classical predictions in general relativity (GR), which are: perihelion precession of Mercury, deflection of light by the Sun and gravitational redshift of light. GET provides an alternative formula for time dilation in the regime of non-relativistic velocities and weak gravitational fields. Time effects for GPS satellites due to gravitation and speed are calculated with correct results. Newton’s law of universal gravitation (NG) and the strange unit of the gravitational constant G can be derived and explained from first principles in GET.
The major prediction in GET is unexpected mass loss for all objects in the Universe. The increase of the astronomical unit (AU), the shrinking of Mercury and the Moon, mass of white dwarfs, slowdown of pulsars, the secular decrease of the geocentric gravitational constant for the Earth (GM_⨁) and several other observations support this prediction. If matter decay into gravitons it will affect most of the dynamic behavior of the Universe. Therefore, GET also comes with a number of other interesting predictions. One such prediction is an alternative explanation of dark matter where the shape of large structures is crucial. Another prediction is that black holes may contain much more mass than expected.
One of the greatest challenges in physics is to merge quantum physics and GR. Since GET is based on a quantified model, it opens for a bridge to quantum physics. The results in GET are exciting and fit well into modern physics. If true, gravitation will reclaim its place as the fourth fundamental force in the Universe.
In addition, if GET turns out to be correct it may explain: