Electron theory of diamagnetic or domain theory?
Answers
Answer:
Magnetism has its origin in the circulating charges in an atom. An atom of any substance consists of a little, massive, charged nucleus Surrounded by charged electrons revolving in orbits around the nucleus. A circulating electron is like a current loop and features a dipole moment. An electron also has a spin magnetic dipole moment. The resulting moment of a magnet of the electron is thus adequate to the resultant of the dipole moments related to its orbital rotation and spin moment of a magnet
Magnetism has its origin in the circulating charges in an atom. An atom of any substance consists of a little, massive, charged nucleus Surrounded by charged electrons revolving in orbits around the nucleus. A circulating electron is like a current loop and features a dipole moment. An electron also has a spin magnetic dipole moment. The resulting moment of a magnet of the electron is thus adequate to the resultant of the dipole moments related to its orbital rotation and spin moment of a magnetOn the idea of magnetic properties, substances are often classifed into three categories:
Magnetism has its origin in the circulating charges in an atom. An atom of any substance consists of a little, massive, charged nucleus Surrounded by charged electrons revolving in orbits around the nucleus. A circulating electron is like a current loop and features a dipole moment. An electron also has a spin magnetic dipole moment. The resulting moment of a magnet of the electron is thus adequate to the resultant of the dipole moments related to its orbital rotation and spin moment of a magnetOn the idea of magnetic properties, substances are often classifed into three categories:i) diamagnetic substances
Magnetism has its origin in the circulating charges in an atom. An atom of any substance consists of a little, massive, charged nucleus Surrounded by charged electrons revolving in orbits around the nucleus. A circulating electron is like a current loop and features a dipole moment. An electron also has a spin magnetic dipole moment. The resulting moment of a magnet of the electron is thus adequate to the resultant of the dipole moments related to its orbital rotation and spin moment of a magnetOn the idea of magnetic properties, substances are often classifed into three categories:i) diamagnetic substancesii) paramagnetic substances
Magnetism has its origin in the circulating charges in an atom. An atom of any substance consists of a little, massive, charged nucleus Surrounded by charged electrons revolving in orbits around the nucleus. A circulating electron is like a current loop and features a dipole moment. An electron also has a spin magnetic dipole moment. The resulting moment of a magnet of the electron is thus adequate to the resultant of the dipole moments related to its orbital rotation and spin moment of a magnetOn the idea of magnetic properties, substances are often classifed into three categories:i) diamagnetic substancesii) paramagnetic substances(iii) ferromagnetic substances
Answer:
Electron Theory of Diamagnetic
Explanation:
Diamagnetism occurs in those substances whose atoms consist of an even number of electrons. The electrons of such paired. The electrons in each pair have orbital motions as well as spin motions in opposite sense. The resultant magnetic dipole moment of the atom is thus zero.