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- The term "F bil" refers to the force acting on a current-carrying conductor in a magnetic field1234. The force is given by the equation F = BIL, where B represents the magnetic field strength, I is the current, and L is the length of the conductor.Learn more:✕This summary was generated using AI based on multiple online sources. To view the original source information, use the "Learn more" links.KEY POINT - The force on a current-carrying conductor in a magnetic field is given by the expressions: when the conductor is perpendicular to the field lines: F = BIl when the angle between the conductor and the field lines is θ, F = BIlsinθrevisionscience.com/a2-level-level-revision/physic…The size of the force acting on a current-carrying wire in a magnetic field can be calculated using the equation: F = BILwww.savemyexams.com/gcse/physics/edexcel/18/r…When the current acting through a conductor in a magnetic field is at 90 degrees to the magnetic field, we can calculate the force acting on a conductor using the formula F=BIL F = BI L.albertteen.com/uk/gcse/physics/electromagnetism/…Using the equation F=BIl to calculate the force on a current-carrying wire, sometimes known as the motor effect.uplearn.co.uk/f-bil-a-level-physics-aqa-revision-1s3…
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WEBThe force F on the wire in Figure 4 can be shown to be proportional to (a) the current on the wire I, (b) the length of the conductor in the field L, (c) the sine of the angle θ that the conductor makes with the field , and (d) the …
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WEBF F is force, L L is length, I I is current and B B is the magnetic flux density. When the current acting through a conductor in a magnetic field is at 90 degrees to the magnetic field, we can calculate the force acting on a …
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WEBFeb 13, 2019 — From the formula, F = BIL, force is directly proportional to the length of the structures, the magnetic field and current being constant. The lengths of each structure doesn't appear to be the same, 'l' here appears …
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