![]() It is a material that attracts iron or ferrous objects. Magnetic Properties of Electricity flowing through a WireĪs a child, you must all have played with a magnet. When the coil is rotated between the pole pieces of a magnet as shown, during one complete rotation of the coil, how often will the magnetic flux linked with the coil be maximum and minimum? Mathematically, the magnetic flux formula is as follows: Magnetic flux is denoted by ΦB where B represents magnetic field, and its unit is tesla-meter2 or weber (Wb). It is calculated as the product of the average magnetic field strength and the perpendicular area it penetrates. Magnetic flux refers to the total number of magnetic field lines penetrating any surface placed perpendicular to the magnetic field. The magnetic flux value could be a vector quantity that depends on the flux direction. Magnetic flux is represented by the symbol B, where B could be a field and therefore the unit is Weber (Wb). Object and cause either intended or unintended effects for a circuit.It's the component of the flux that passes through the coil that's shared by all. This magnetic flux can then penetrate a nearby Being that it creates a magnetic field, it has magnetic flux. The best example of this is an inductor.Īn inductor is a device which creates a magnetic field when currents run through it. Magnetic flux is an important calculation in engineering and in circuits, because some circuit components store magnetic fields as energy. The smaller the field or the area, the smaller the flux. The greater the magnetic field or area, the greater The magnetic flux, again, has a direct relationship with the magnitude of the magnetic field and the area of the object. The unit of theĪngle, α, can be either in radians or degrees. The unit which the area is computed in is in unit meters squared (m 2). The unit which the magnetic field is computed in is unit tesla. The resultant value will automaticallyīe computed and shown below. To use this calculator, a user just enters the magnetic field, B, the area, A, and the angle, α, of the object, and clicks the 'Submit' button. The calculator above, which computes the magnetic flux at perpendicular angles. If the magnetic field isperpendicular to the object, then use This magnetic flux calculator calculates the magnetic flux of an object based on the magnitude of the magnetic field which the object emanates, the area of the object, and theĪngle of the object from the 90° perpendicular angle,Īccording to the formula, Φ= BAcos(α), if the magnetic field is at a non-90° angle (non-perpendicular) to the area of the object. Magnetic Flux Calculator If Magnetic Field, B, is at a non-90° angle (non-perpendicular) to Area, A Conversely, the smaller the area, the smaller the magnetic flux. The greater the area of an object, the greater The area of the object has the same direct relationship. Conversely, the smaller the magnetic field, the smaller the flux. The greater the magnetic field, the greater The magnetic flux is directly proportional to the magnitude of the magnetic field emanating from the object and the area of the object. To use this calculator, a user just enters the magnetic field, B, and the area, A, of the object, and clicks the 'Submit' button. The calculator below, which computes the magnetic flux at non-perpendicular angles. If the magnetic field is not perpendicular to the object, then use This magnetic flux calculator calculates the magnetic flux of an object based on the magnitude of the magnetic field which the object emanates and the area of the object,Īccording to the formula, Φ=BA, if the magnetic field is at a 90° angle (perpendicular) to the area of the object. Magnetic Flux Calculator If Magnetic Field, B, is at a 90° angle (Perpendicular) to Area, A ![]()
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