Working with precision- and microbalances is part of our daily routine. Any scientist or experimenter who has ever dealt with possible influences on highly sensitive measurement technology, especially on microbalances and high-precision mass comparators [1], knows how many factors need …
Replication of the Impulse Gravity Generator (IGG) experiment
Over the last two decades, publications have appeared repeatedly in which seemingly unusual interactions between superconductors and gravitational fields have been demonstrated.
One of the leading experiments can be found in the work of E. Podkletnov et al., [1] the …
Microgravity in Waldaschaff: Development of a 2 s – vacuum drop tower
Although gravity is the weakest force in comparison to all other basic forces, it dominates our everyday life to a large extent. Because “gravity” is, besides inertia, a property of mass. And thus, gravity can normally be experienced more frequently …
Verification of mass constancy in closed systems after formation of new phases
Scientists from the disciplines of physics and chemistry already learn during their studies that mass in a thermodynamically closed system is a conservation quantity. The law of conservation of mass, also called law of Lomonossow-Lavoisier [1], is based among other …
The ‘Unified Structural Quantum Field Theory” reconsidered
In 1915, A. Einstein described gravity in the theory of General Relativity on the basis of differential geometry as a curvature of a 4-dimensional space-time. From 1920 on to the time of his death in 1957, he tried to unify …
Are Gravitodynamic Laboratory Experiments possible?
Gravitodynamics is based on an 1893 article of O. Heaviside or, respectively, on a simplication of A. Einstein’s General Relativity. It represends a set of equations for gravity and gravitymagnetism quite similar to the Maxwell-equations for electricity and magnetism. As …