Relationship Between the Electron Magnetic Moment and the Magnetic Flux Density Around Electrical Conductors

Electrons have intrinsic properties of electrostatic charge and magnetic moment. Is the magnetic field around an electrical conductor due to the electrostatic charge or the magnetic moment? Contemporary mathematics states that the field is due to the electrostatic charge. This paper proposes that the field is due instead to the magnetic moment. The distinction provides a significant new understanding of magnetism. In this paper the magnetic flux density around a single free electron is equated to the electron’s intrinsic magnetic moment. The flux density around an electrical conductor is then calculated by multiplying the number of free electrons comprising the electrical current by the flux density around the individual electron. The paper provides a Gaussian relationship between the electron’s intrinsic magnetic moment and the electron’s surrounding magnetic flux density. Force fields and forces of nature are discussed.