Newton’s law of gravitation describes the action between two objects as a three-dimensional function that acts at a distance simultaneously, whereas Einstein’s General Theory of Relativity describes gravity in terms of a curvature of spacetime produced by matter or energy in a four-dimensional manifold. Einstein’s theory also shows that gravitational waves exist within the context of General Relativity and move through spacetime at the speed of light. This suggest that gravity can be represented as a four-dimensional wavelike function. This is precisely how we treat gravity. We describe gravity as a four-dimensional function that is created by the interaction between matter, energy and the underlying four-dimensional spacetime manifold. This spacetime manifold is the underlying superstructure that supports and contains everything that exists in the universe.

Using this wavelike model for gravity permitted us to experimentally show an underlying relationship between gravitation and electromagnetism. By applying electromagnetic fields onto an object (prototype), we were able to diminish the effects of gravity on this object. The result reduced the objects total weight by 1.1%, 4.16% and 5.21%. The results of these experiments are scientifically significant and open a whole new way of looking at gravitation. Now we can focus our attentions on modifying the curvature associated with an object, rather than trying to change or modify the earth’s curvature acting on an object.