## What is magnetic flux (with picture) electricity transmission

###########

Magnetic flux is the quantity of magnetic field that penetrates an area at right angles to it. In a simple situation where the field passes at right angles through a flat surface, this quantity is the strength of the magnetic field multiplied by the area of the surface. In most real-life situations, however, other factors have to be taken into account. Magnetic flux is an important concept in many areas electricity meme of science, with applications relating to electric motors, generators and the study of the Earth’s magnetic field. It is represented in physics by the Greek letter phi, φ. Gauss’s Law

A bar magnet has two poles, named north and south due to the way they react to the Earth’s magnetic field, which is aligned roughly north-south. It is a scientific convention that the electricity for beginners pdf lines of magnetic force flow from north to south. If a person takes the two dimensional rectangular surface at the north end of a bar magnet, it has a magnetic flux, as does the surface at the ideal gas questions south pole. The magnet as a whole, however, has no flux, as the north and south ends are equal in strength and the field “flows” from the north pole into the south pole, forming a closed loop.

Gauss’s law for magnetism states that, for a closed surface electricity in water, such as a sphere, a cube or a bar magnet, the magnetic flux is always zero. It is another way of saying that an object, no matter how small, with a north pole must always have a south pole of equal strength and vice versa. Everything that has a magnetic field is a dipole, meaning that it has two poles. Some scientists have speculated that magnetic monopoles may exist, but none have ever been detected. If they are found, Gauss’s law would have to be changed. Faraday’s Law

Faraday’s Law states 100 gas vs 10 ethanol that a change in magnetic flux will create a voltage, or electromotive force (EMF), within a coil of wire. Simply moving a magnet near a coil of wire will achieve this, as will a change in the strength of the magnetic field. The voltage produced can be determined from the rate gas city indiana police department of change in magnetic flux and the number of turns in the coil.

This is the principle behind electricity generators, where movement is created by, for example, running water, wind, or an engine powered by fossil fuels. Magnets and coils of wire convert this movement into electrical power, in accordance with Faraday’s Law. Electric motors demonstrate the same idea in reverse: an alternating electric current in coils of wire interacts with magnets to produce movement k electric jobs. Magnetic Materials

Materials vary in their reactions to magnetic fields. Ferromagnetic substances produce a stronger magnetic field of their own, and this field may persist when the external field is removed, leaving a permanent magnet. Iron is the best-known element of this type, but other metallic elements, such as cobalt, nickel, gadolinium, and dysprosium, also demonstrate this effect. Very powerful magnets can be made from alloys of the rare earth metals neodymium and samarium.

Diamagnetic substances create a magnetic field that is opposed to an external field electricity quiz grade 9, producing repulsion. All substances show this effect, but it is normally very weak and always weaker than ferromagnetism or paramagnetism. In a few cases, such as a form of carbon called pyrolytic graphite, the effect is strong enough to allow a small piece of material of this type to float in the air just gas ark above an arrangement of strong magnets. Calculating and Measuring Flux

Calculating the flux for a flat surface at right angles to the direction of a magnetic field is straightforward. Often, however, it is necessary to calculate the quantity for electricity magnetism and electromagnetism a coil of wire, also known as a solenoid. Assuming the field is perpendicular to the wire, the total flux is the magnetic field strength multiplied by the area through which it passes multiplied by the number of turns in the coil. Where the field is not at right angles to the surface, the angle made by the magnetic field lines to the perpendicular must be taken into account, and the product is multiplied by the cosine of this angle.

The measurement of magnetic flux at various points on the Earth’s surface enables scientists to monitor the planet’s magnetic field. This electricity off field, thought to be generated by electric currents in the Earth’s iron core, is not static, but shifts over time. The magnetic poles electricity and magnetism pdf have, in fact, reversed many times in the past and will likely do so again in the future. The effects of a pole reversal may be serious, as during the change, the strength of the field would be reduced over much of the planet. The Earth’s magnetic field protects life on the planet from the solar wind, a stream of electrically charged particles from the Sun that would be harmful. Units of Measurement