The Measurements of Directional Dependence of Weight for Magnets

Authors

  • C. Y. Lo

  • Li Hua Wang

Keywords:

current-mass interaction; charge-mass interaction; repulsive gravitation; E=MC

Abstract

To explain the weight reduction of a charged capacitor and Einstein's unification, it is necessary to confirm the existence of the repulsive charge-mass interaction and the attractive current-mass interaction. Therefore, to show the existence of the current-mass interaction, one must measure the effect of a small directional dependence of weight for a magnet, To do this, one must exclude the magnetic effect from the earth. In addition, one should avoid the influence of the magnet to the electronic scale for weighing. Here, we provide a method to measure and confirm such tiny effects of weight directional dependence experimentally. However, it is not effective to measure the small current-mass interaction directly. A problem is that a current must have a maintaining source unless in the super-conducting situation. Thus, this connection to the source would affect the measurements of the small current-mass interaction. Moreover, E = mc2 is not always valid and Einstein failed his unification because, unlike Maxwell, he did not recognize that some additional interactions must be added to the original theories.

How to Cite

C. Y. Lo, & Li Hua Wang. (2018). The Measurements of Directional Dependence of Weight for Magnets. Global Journal of Science Frontier Research, 18(A11), 1–11. Retrieved from https://journalofscience.org/index.php/GJSFR/article/view/2361

The Measurements of Directional Dependence of Weight for Magnets

Published

2018-07-15