what relative direction between a magnetic field and a current-carrying wire results in the greatest force?

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jaimollukose71951 jaimollukose71951

21-11-2022
Physics

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what relative direction between a magnetic field and a current-carrying wire results in the greatest force?

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OneeRa OneeRa · Answer 1 · 2022-11-25T04:21:22-05:00

The relative direction between a magnetic field and a current-carrying wire results in the greatest force is perpendicular to each other. This is based on the Lorentz force equation on a current-carrying wire.

What is Lorentz force?

The Lorentz force is the force resulted due to the current in a magnetic field. On a current-carrying wire, the Lorentz force can be expressed as

F = B I l sin θ

Where

F = Lorentz force (N)
B = magnetic field (T)
I = current (A)
l = length of wire
θ = angle between B and I

If we wish the greatest force, then sin θ value should be 1.

sin θ = 1

θ = 90°

The angle between a magnetic field and a current-carrying wire for getting the greatest force is 90°. it means that the direction of a current-carrying wire is perpendicular to a magnetic field.

Learn more about Lorentz force here:

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