Gravitational Relativity
Scientists / Papers
Einstein
Theories Citing This Reference (10)
Einstein's Special Relativity
Explains how matter curves spacetime and vice versa, providing a foundational understanding for gravity manipulation.
Ether Density Modification for Reduced Energy Requirements
By first altering the physical constants (permittivity, permeability) of the local ether to make it more pliable, spacecraft require dramatically less energy to achieve the same spacetime warping effects
General Relativity Gravity Mass Increase
General relativity energy relativistic particles electrons contributes curvature spacetime effectively increasing gravitational mass speed light inflates mass anti-gravity field control
Relativistic Free Electron Laser Gravity Manipulation
Relativistic free electron laser accelerated near speed light alternating magnetic field synchrotron radiation Lorentz contraction wavelength short gravitational mass increase gravity manipulation
Relativistic Refrigeration
New refrigeration technologies force cold flow hot relativistic motion heat pump air conditioning system changing thermodynamics laws
Relativistic Wormhole Travel
Utilizing time dilation to create a spacetime link where a wormhole mouth launched at near light speed connects a distant star to Earth in drastically shorter timeframe.
Relativity and Portals
The breakdown of relativity allows for the possibility of portals and wormholes by exploiting relativistic effects.
Rotating Charge Spacetime Coupling
Charges rotating in magnetic fields, especially when their axis wobbles, can couple directly to spacetime geometry and efficiently warp it, particularly at specific high voltage thresholds
Sakarov Radiation Pressure Gravity
Gravitational attraction occurs via radiation pressure mechanism where bright objects in dark boxes repel by mutual radiation pressure while dark objects in bright boxes attract by mutual shadowing inverse square behavior
Schwarzschild Solution (Schwarzschild Metric)
The solution to Einstein's field equations that describes the gravitational field outside a spherical mass.