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- The equation “F = BIl” represents the motor effect formula, used to calculate the force experienced by a current-carrying wire placed in a magnetic field12345. Here's what each variable stands for:
- F: Force (measured in newtons, N)
- B: Magnetic flux density (strength of the magnetic field, measured in tesla, T)
- I: Current (measured in amperes, A)
- L: Length of the wire (measured in meters, m)
Learn more:✕This summary was generated using AI based on multiple online sources. To view the original source information, use the "Learn more" links.The equation “F = BIl” is called the motor effect formula. It is used to calculate the force experienced by a current-carrying wire placed in a magnetic field. F stands for the force which is measured in newtons (N).studyrocket.co.uk/revision/gcse-physics-triple-wjec/…A moving charge can be represented by a current (I) in a length of wire (L) perpendicular to a magnetic field. This would also have a maximum force (F) when perpendicular to a magnetic field magnetic field (B). This equation represents the relationship: F = BIL force = (magnetic field) (current) (length of wire)stickmanphysics.com/stickman-physics-home/mag…The size of the force acting on a current-carrying wire in a magnetic field can be calculated using the equation: F = BIL Where: F = force acting on current-carrying wire in Newtons (N) B = magnetic flux density (which is the strength of the magnetic field) in Tesla (T)www.savemyexams.com/gcse/physics/aqa/18/revis…Force on current in magnetic field: F = BIL sin θ The units for B are tesla (T). The special case is when the wire is at right angles to the field (that is θ = 90 o). This gives the greatest force on the wire. (See Figure 5)www.schoolphysics.co.uk/age16-19/Electricity%25…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/… - People also ask
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