Evidence for Modified Newtonian Dynamics from Cavendish-type gravitational constant experiments
Norbert Klein

TL;DR
This paper analyzes recent Cavendish-type experiments for the gravitational constant G within the MOND framework, demonstrating that MOND corrections can reconcile discrepancies and produce a consistent G value aligned with galaxy rotation curve fits.
Contribution
It introduces a MOND correction method for G measurements from Cavendish experiments, resolving discrepancies and aligning results with galaxy rotation curve fits.
Findings
MOND corrections reconcile G measurement discrepancies.
A common MOND interpolation function fits all data.
Resulting G value is consistent with galaxy rotation curves.
Abstract
Recent experimental results for the gravitational constant G from Cavendish-type experiments were analysed in the framework of Modified Newtonian Dynamics (MOND). MOND corrections were applied to the equation of motion of a pendulum, under the assumption that the magnitude of the horizontal time dependent gravitational acceleration determines the amount of MOND corrections. The large vertical component of the local gravitational field of the earth is fully compensated by the alignment of the torsion pendulum in accordance with Newtons third law and therefore not considered for MOND corrections. From the analysis of the MOND corrected equation of motion of a realistic torsion pendulum with mixed gravitational and electromagnetic restoring torque simple rules for meaningful MOND corrections of measured G values determined by different operational modes of Cavendish type G experiments were…
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