What is a dipole field?
In physics are two main types of dipole, magnetic dipole and electric dipole. Conceptually, they are similar in that the term dipole means "having two poles". The dipole field is the sum of the electrical fields resulting from the dipole at any point in the area, regardless of whether it is an electric dipole or a magnetic dipole. The Earth's magnetic field can be represented by a dipole field. Hydrogen atom is a dipole because it has one positively charged proton and one negatively charged electron. However, the water molecule is also a dipole, because the electrons are more attracted to an oxygen atom than two stable hydrogen atoms. This electric field lies the power on this positive test cartridge divided by the hub size and is in the direction of force. This can easily be seen by drawing arrows that represent the size of the electromagnetic force at any point and then drawn the lines of the field parallel to the force from one charge to another. The size and direction of the sum of these forces is a dipole field.
Magnetic dipole is basically a bar magnet and has two different poles, north and south. The dipole field according to the magnetic dipole is the overall magnetic field composed of magnetic forces at each point of the area. All magnets are dipoles in nature. One of the four electromagnetic equations developed by James Maxwell states that there is nothing like a magnetic monopoly.
In geophysics, the Earth's magnetic field can be represented as a dipole field with a magnetic forest line extending from the geographical South Pole to the Geographical North Pole. The force of the dipole field is as much as possible when the field of the field is closer together, as well as at the North and South Poles, and weakens how the field line is moved away from each other. The line drawn by the center of the dipole field on the Earth's equator represents the equatorial plane and is perpendicular to the magnetic field line.