Magnetic field due to a current-carrying loop

Magnetic susceptibility is the amount of magnetisation that is generated when exposed to a unit-strength magnet. Magnetic permeability is the correlation of magnetic induction to the magnetic intensity of a material. Magnetic permeability is a scalar quantity, and its symbol is ‘μ’.  Magnetic permeability aids in measuring a material’s resistance to the magnetic field, or […]

Introduction An applied magnetic field can induce magnetic susceptibility (Latin: susceptibles, “receptive”; indicated) in materials. In other words, it’s the ratio of the applied magnetic field strength H to the magnetisation M (magnetic moment per unit volume). Most materials’ responses to an applied magnetic field may be divided into two categories: paramagnetism, where the magnetic

It is possible to identify between different orbitals in an atom based on their form, size and spatial orientation in space. An atom is made up of a vast number of orbitals that are distinguished from one another by their shape, size and spatial orientation. The orbital characteristics of an electron are used to completely

 A bar magnet hanging in the magnetic field of the Earth orients on its own north–south. A north magnetic pole is the north-seeking pole of such a magnet, or any comparable pole. A south magnetic pole is the south-seeking pole, or any pole that is comparable to it. Various magnets’ dissimilar poles attract one another,

In 1885, Oliver Heaviside introduced the term magnetic permeability, which is described as electromagnetism permeability, a property of a magnetic material that supports magnetic field formation. It monitors and evaluates the amount of magnetic flux supported by the material that can easily pass through it. Magnetic permeability is denoted by μ and is the scalar

The magnetic moment is defined as the magnetic strength and alignment of a magnet or other object that generates a magnetic field. Loops of electric current such as electromagnets, permanent magnets, particles such as electrons and many astronomical objects all have magnetic moments. More precisely, the term magnetic moment refers typically to a system’s magnetic

Introduction The space around a magnet in which the force of attraction and repulsion force can be detected is called its magnetic field. Magnetic field lines are a vector quantity. The magnetic field is an abstract entity. Some charges can produce magnetic fields. While a fixed charge only produces an electric field, a moving charge

Magnetic Field A magnetic field is a vector field that describes the magnetic effect on moving electric charges, electric currents and magnetic substances. A mobile charge in a magnetic field is subjected to a force that is perpendicular to both the mobile charge’s motion and the magnetic field. A permanent magnet’s magnetic field attracts or

Introduction Magnetic Elements demonstrate that the Earth operates as a massive magnetic dipole, with its magnetic poles located close to its geographical ones. Because the magnetic needle’s north pole approximates the geographic north (NG), the magnetic pole near NG is the magnetic south pole of Earth Sm. In addition, the pole near SG is the

A magnetic field can be produced by moving charges or electric currents. The basic equation governing the magnetic field due to a current distribution is the Biot-Savart law. Solenoid is a coil which has length and is used to produce a uniform magnetic field . Magnetism is an attractive or repulsive ability produced by moving