Gravity Probe B Experiment in 7D Space-and-Time Continuum

Yu. A. Portnov

arXiv:1204.5175·physics.gen-ph·December 23, 2014·1 cites

Gravity Probe B Experiment in 7D Space-and-Time Continuum

Yu. A. Portnov

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Open Access

TL;DR

This paper applies seven-dimensional field equations to analyze gyroscope precession in the Gravity Probe B experiment, showing that the extended model aligns with observed data unlike classical theories.

Contribution

It introduces a 7D space-time framework to accurately predict gyroscope precession, improving upon classical four-dimensional models.

Findings

01

7D model matches Gravity Probe B data

02

Classical theory assumptions are inconsistent with observations

03

Extended model provides better predictive accuracy

Abstract

This study deals with application of field equations in seven-dimensional space-and-time continuum to calculate geodetic and orbital gyroscope precession. It was demonstrated that unlike the classic theory the assumptions made completely correspond to the Gravity Probe B findings.

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Taxonomy

TopicsRelativity and Gravitational Theory · Geophysics and Sensor Technology · Geophysics and Gravity Measurements