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== Sources == {{see also|Magnetic moment}} Magnetism, at its root, arises from three sources: # [[Electric current]] # [[Spin magnetic moment]]s of [[elementary particles]] # Changing electric fields The magnetic properties of materials are mainly due to the magnetic moments of their [[atom]]s' orbiting [[electron]]s. The magnetic moments of the nuclei of atoms are typically thousands of times smaller than the electrons' magnetic moments, so they are negligible in the context of the magnetization of materials. Nuclear magnetic moments are nevertheless very important in other contexts, particularly in [[nuclear magnetic resonance]] (NMR) and [[magnetic resonance imaging]] (MRI). Ordinarily, the enormous number of electrons in a material are arranged such that their magnetic moments (both orbital and intrinsic) cancel out. This is due, to some extent, to electrons combining into pairs with opposite intrinsic magnetic moments as a result of the [[Pauli exclusion principle]] (see ''[[electron configuration]]''), and combining into filled [[electron subshell|subshells]] with zero net orbital motion. In both cases, the electrons preferentially adopt arrangements in which the magnetic moment of each electron is canceled by the opposite moment of another electron. Moreover, even when the [[electron configuration]] ''is'' such that there are unpaired electrons and/or non-filled subshells, it is often the case that the various electrons in the solid will contribute magnetic moments that point in different, random directions so that the material will not be magnetic. Sometimes{{mdash}}either spontaneously, or owing to an applied external magnetic field{{mdash}}each of the electron magnetic moments will be, on average, lined up. A suitable material can then produce a strong net magnetic field. The magnetic behavior of a material depends on its structure, particularly its [[electron configuration]], for the reasons mentioned above, and also on the temperature. At high temperatures, random [[thermal motion]] makes it more difficult for the electrons to maintain alignment.
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