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Main Authors: Chyba, Christopher F., Hand, Kevin P., Chyba, Thomas H.
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2503.15790
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author Chyba, Christopher F.
Hand, Kevin P.
Chyba, Thomas H.
author_facet Chyba, Christopher F.
Hand, Kevin P.
Chyba, Thomas H.
contents Earth rotates through the axisymmetric part of its own magnetic field, but a simple proof shows that it is impossible to use this to generate electricity in a conductor rotating with Earth.However, we previously identified implicit assumptions underlying this proof and showed theoretically that these could be violated and the proof circumvented. This requires using a soft magnetic material with a topology satisfying a particular mathematical condition and a composition and scale favoring magnetic diffusion, i.e. having a low magnetic Reynolds number Rm (C.F. Chyba, K.P. Hand, Electric power generation from Earth's rotation through its own magnetic field. Phys. Rev. Applied 6, 014017-1-18 (2016)). Here we realize these requirements with a cylindrical shell of manganese-zinc ferrite. Controlling for thermoelectric and other potentially confounding effects (including 60 Hz and RF background), we show that this small demonstration system generates a continuous DC voltage and current of the (low) predicted magnitude. We test and verify other predictions of the theory: voltage and current peak when the cylindrical shell's long axis is orthogonal to both Earth's rotational velocity v and magnetic field; voltage and current go to zero when the entire apparatus (cylindrical shell together with current leads and multimeters) is rotated 90 degrees to orient the shell parallel to v; voltage and current again reach a maximum but of opposite sign when the apparatus is rotated a further 90 degrees; an otherwise-identical solid MnZn cylinder generates zero voltage at all orientations; and a highRm cylindrical shell produces zero voltage. We also reproduce the effect at a second experimental location. The purpose of these experiments was to test the existence of the predicted effect. Ways in which this effect might be scaled to generate higher voltage and current may now be investigated.
format Preprint
id arxiv_https___arxiv_org_abs_2503_15790
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Experimental demonstration of electric power generation from Earth's rotation through its own magnetic field
Chyba, Christopher F.
Hand, Kevin P.
Chyba, Thomas H.
Applied Physics
Earth and Planetary Astrophysics
Earth rotates through the axisymmetric part of its own magnetic field, but a simple proof shows that it is impossible to use this to generate electricity in a conductor rotating with Earth.However, we previously identified implicit assumptions underlying this proof and showed theoretically that these could be violated and the proof circumvented. This requires using a soft magnetic material with a topology satisfying a particular mathematical condition and a composition and scale favoring magnetic diffusion, i.e. having a low magnetic Reynolds number Rm (C.F. Chyba, K.P. Hand, Electric power generation from Earth's rotation through its own magnetic field. Phys. Rev. Applied 6, 014017-1-18 (2016)). Here we realize these requirements with a cylindrical shell of manganese-zinc ferrite. Controlling for thermoelectric and other potentially confounding effects (including 60 Hz and RF background), we show that this small demonstration system generates a continuous DC voltage and current of the (low) predicted magnitude. We test and verify other predictions of the theory: voltage and current peak when the cylindrical shell's long axis is orthogonal to both Earth's rotational velocity v and magnetic field; voltage and current go to zero when the entire apparatus (cylindrical shell together with current leads and multimeters) is rotated 90 degrees to orient the shell parallel to v; voltage and current again reach a maximum but of opposite sign when the apparatus is rotated a further 90 degrees; an otherwise-identical solid MnZn cylinder generates zero voltage at all orientations; and a highRm cylindrical shell produces zero voltage. We also reproduce the effect at a second experimental location. The purpose of these experiments was to test the existence of the predicted effect. Ways in which this effect might be scaled to generate higher voltage and current may now be investigated.
title Experimental demonstration of electric power generation from Earth's rotation through its own magnetic field
topic Applied Physics
Earth and Planetary Astrophysics
url https://arxiv.org/abs/2503.15790