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Carter-like constants of the motion in Newtonian gravity and electrodynamics

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arxiv 0812.0110 v1 pith:ZEBNRJYR submitted 2008-11-29 gr-qc

Carter-like constants of the motion in Newtonian gravity and electrodynamics

classification gr-qc
keywords momentsfieldnewtoniananalogousbodycarter-likechargeconstant
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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For a test body orbiting an axisymmetric body in Newtonian gravitational theory with multipole moments Q_L, (and for a charge in a non-relativistic orbit about a charge distribution with the same multipole moments) we show that there exists, in addition to the energy and angular momentum component along the symmetry axis, a conserved quantity analogous to the Carter constant of Kerr spacetimes in general relativity, if the odd-L moments vanish, and the even-L moments satisfy Q_2L = m (Q_2/m)^L. Strangely, this is precisely the relation among mass moments enforced by the no-hair theorems of rotating black holes. By contrast, if Newtonian gravity is supplemented by a multipolar gravitomagnetic field, whose leading term represents frame-dragging (or if the electrostatic field is supplemented by a multipolar magnetic field), we are unable to find an analogous Carter-like constant. This further highlights the very special nature of the Kerr geometry of general relativity.

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Cited by 2 Pith papers

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  2. On the integrability of root-Kerr probe dynamics

    hep-th 2026-04 unverdicted novelty 6.0

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