Gravity exerts a mechanical force on any object that deforms the object and pushes on the surrounding atoms. Using gravity, energy is obtained by the so-called piezo method, which converts mechanical stress into electrical energy. Piezoelectric gravity devices can generate energy anywhere.
When mechanical stress is applied to a piezoelectric crystal, the structure of the crystal is deformed, the atoms push around and the crystal conducts an electric current. It occurs when motion or mechanical energy is converted into electrical energy due to crystal deformation. Piezoelectric materials are materials that can generate electricity due to mechanical stress. The mechanical stress of a piezoelectric crystal is greatest in the ground state.
In the case of a gravitational potential difference, there is less gravitational stress on a piezoelectric crystal, which correspondingly reverses the deformation of the structure, thereby pushing the atoms around, causing the crystal to conduct less electric current than in the ground state.
Conclusion:
The gravitational potential difference causes a corresponding distortion in the oscillator structure and the corresponding distortion results in a loss of oscillator's wave energy.
Note:
The SI unit of the International System of Units is defined as the time interval equal to 9192631770 vibrations of the ground state cesium-133 atom, represented as s or seconds.
Citation: Thakur¹, S.N. and Bhattacharjee, P.S.D., 2023. Relativistic effects on phaseshift in frequencies invalidate time dilation II. DOI http://dx.doi.org/10.13140/RG.2.2.12631.96161
#gravity #piezoelectriccrystal #mechanicalstress #electricalenergy
Bing Search This article