Physics:Mutual induction shaft mechanism
Mutual induction shaft mechanism is a power generation mechanism basically used by electrostatic charge excitation mechanism. This mechanism was developed by Shayantan Bhattacharya, an engineering student, while he was in college.[citation needed] This invention relates to the conversion of electrostatic charge generating materials with an external prime mover mechanism to use mutual induction shaft mechanism (MISM) to generate a charge density to get an output dynamic source of current. The output dynamic current is dependent on the amount of charge density being measured at prior sensors and multi meter and the length of the shaft. This mechanics is an trans-mechanic process. Electrostatic charge concentration of charging materials are being used for dynamic current generation by use of mutual induction shaft mechanism and the two opposite polarity is being achieved by a prime mover crank mechanism by virtue of which the circulation of wheels generating circular motion is being converted into reciprocating motion at two extreme ends of the prime mover and an appropriate charge density Q is being generated at two extreme ends and the estimation and the determination of the charge density Q is measured by multi meter at points down and connected to prime mover lattice. And in accordance of the charge density Q the following shaft is being set in mutual induction.
Applications
This mechanism can be used in electric power generation in remote areas and in particle analytical procedues including in atomic sciences to understand nuclear physics, atomic structures.
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