Exploring the Concept of Negative Gravitation: An Insight into DOPA Theory

Peter Roberts, a retired UK professor, delves into the fascinating realm of gravitational forces with his groundbreaking theory, DOPA (Differential Opposing Partial Absorption). In this article, we unravel the mysteries of negative gravitation and the incredible mechanism that underpins the forces at play in our universe.

Understanding Negative Gravitation

The concept of negative gravitation has often intrigued scientists and researchers alike. Negative gravitation does not refer to the negation of gravity but rather the mechanism that allows for both incredibly gentle and immensely strong gravitational forces. This duality is observed throughout our universe, from the tiniest particles to the largest galaxies.

For instance, the gravitational forces that formed the moon and keep us anchored to Earth are balanced with the gentle yet powerful force that shapes our planet and the vast cosmos. How can gravity be both so gentle and so strong at the same time?

Introducing DOPA Gravitational Theory

In his work, Peter Roberts has developed a novel theory to address these questions. DOPA, or Differential Opposing Partial Absorption, provides a comprehensive explanation of how gravity is created and maintained. According to this theory, the net gravitational force at any point is the result of the difference between strong incoming gravitational waves and slightly attenuated waves that have passed through the object.

Let's consider an example to better understand this concept. If we assume a pristine gravitational wave has a strength of 1,000,000 units, the surface of a small planet would experience a slightly attenuated incoming wave of 999,990 units. The net difference, or the resulting gravitational force, would be just 10 units, equivalent to 10 m/sec2. For a more massive planet, the incoming wave remains strong at 1,000,000 units, but the attenuated wave might reduce to 999,950 units. The net difference here would be 50 units, or 50 m/sec2.

Calibration and Verification of DOPA Theory

To validate his theory, Roberts calibrated a unit of gravitational absorption using the Earth's gravity as a reference. He then used this unit to calculate the surface gravity of every solid rocky/icy planet in our solar system. The results were astonishingly accurate, with all predictions being more than 99.73% accurate. Such precision is unparalleled in the field of gravitational science and serves as strong evidence for the correctness of the DOPA theory.

The Unique Features of DOPA Theory

One of the most significant revelations of the DOPA theory is its explanation of how the 'data' needed to control matter is stored within the Universal Gravitational Field (UGF) both in a vacuum and within matter. Unlike electrostatic or magnetic fields, the UGF is dynamic and changes continually based on the net gravitational vectors at any given location.

This dynamic nature of the UGF is a groundbreaking insight that has not been explained by any previous theory. It offers a unique solution to the complexity of gravitational forces and opens new avenues for research and exploration in the field of physics and cosmology.

Kind regards,

Peter Roberts