Enter the content which will be displayed in sticky bar
Robert L. Kemp
local time: 2018-12-13 12:11 (-07:00 DST)
Robert L. Kemp Abstracts
Titles
  • Conceptual and Critical Analysis of Bill Stubb's Paper - An Assessment of the Gravity Data during the March 9, 1997 Total Solar Eclipse (2013) [Updated 1 year ago]
    by Robert L. Kemp   read the paper:
  • The Net Attraction Force of the Gravitation Vortex (2012) [Updated 1 year ago]
    by Robert L. Kemp   read the paper:
  • Conditions for the Absence and Presence of Matter in General Relativity (GR) - Einstein Field Equations (EFEs) (2012) [Updated 6 years ago]
    by Robert L. Kemp   read the paper:

  • Abstracts Details
  • Conceptual and Critical Analysis of Bill Stubb's Paper - An Assessment of the Gravity Data during the March 9, 1997 Total Solar Eclipse (2013) [Updated 1 year ago]
    by Robert L. Kemp   read the paper:

    This paper gives a theoretical and conceptual critical analysis of a paper published by William Stubbs (February 2013), An Assessment of the Gravity Data Collected at the Mohe Observation Center in China during the March 9, 1997 Total Solar Eclipse. This paper is written to bring discussion, and a top level critical evaluation of Stubb's analysis and conclusion for the value of the ?Speed of Gravity? based on his obtained experimental data of the gravitational interaction during a solar eclipse, as clearly described with graphs and tabular data, in his paper. My analysis of Stubb's conclusions, places Newton and Einstein in a toe to toe stand off debate, over who has the more accurate description of the way that nature behaves. Newton makes the claims that there is an ?Instantaneous Gravitational Interaction Speed? when there is the interaction between any two or more mass bodies. And Einstein makes the prediction that there is ?Finite Speed of Light Gravitational Interaction? when there is the interaction between any two or more mass bodies. Stubbs concludes that Newton is correct! I maintain that Einstein is correct!


  • The Net Attraction Force of the Gravitation Vortex (2012) [Updated 1 year ago]
    by Robert L. Kemp   read the paper:

    This paper presents that an Inertial Mass Gravitation Vortex, is described by two Gravitational Attraction Forces, known as the Self Gravitational Field Force and the Newtonian Gravitational Field Force. These two attraction forces exist for every gravitational attraction and interaction between masses in an isolated and conserved inertial mass gravitational field vortex system. The Newtonian Gravitational Field Force is responsible for the specific individual gravitational attraction between an orbiting mass and the conserved inertial mass vortex system. The Self Gravitational Field Force is responsible for the total curvature and total gravitational attraction of the conserved inertial mass vortex system. This model predicts that the Newtonian Gravitational Field Force is a limiting force, when compared to the Self Gravitational Field Force, of the total gravitational attraction of a conserved inertial mass vortex system. Additionally this paper presents that the Kepler "Evolutionary Attraction Rate" of the gradient gravity field is not infinitely small but has a finite curvature described by the Schwarzschild radius of the gravity vortex.


  • Conditions for the Absence and Presence of Matter in General Relativity (GR) - Einstein Field Equations (EFEs) (2012) [Updated 6 years ago]
    by Robert L. Kemp   read the paper:

    In this paper the various "presence of matter" and "absence of matter" conditions, in gravitational field regions, of the vacuum of space-time, in the General Relativity (GR) Einstein Field Equations (EFEs) is discussed. The Static & Dynamic Vacuum Solutions of the (EFEs) and the various conditions are discussed using simplified Classical Mathematics and Mechanics.

    Predicted in the various "absence of matter" or "presence of matter" conditions of the (EFEs), "empty space" is shown to be filled with "Electromagnetic Heat Radiation Energy" or "Dark Expansion Space Energy" in gravitational field regions, of the vacuum of space-time, where there is no mass present in that location. Furthermore, it will be validated in the mathematics, of General Relativity (GR), and the Einstein Field Equations (EFEs), that the solution of the Black Hole Event Horizon, describes the maximum curvature, and the smallest, infinitesimal, most minimum space-time distance, of a gravitational field.