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What are the two angles between the direction of the current and the direction of a uniform 0.0400 T magnetic field for which the magnetic force on the wire has magnitude 0.0250 N?
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What are the two angles between the direction of the current and the direction of a uniform 0.0400 T magnetic field for which the magnetic force on the wire has magnitude 0.0250 N?

User CaffeinatedCM
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1 Answer

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Answer:

The two values of θ are 41.03° and 138.97°.

Step-by-step explanation:

The force on a current carrying wire is given by the following equation:


\vec{F} = I\vec{L}* \vec{B}

The cross-product can be written with a sine term:


F = ILB\sin(\theta)\\0.025 = IL(0.04)\sin(\theta)\\\sin(\theta) = (0.025)/(0.04IL)\\\theta = \arcsin((0.025)/(0.04IL))

If we assume that the wire is 0.28 m long and the current is 3.40 A, then sin(θ) becomes 0.6565.

Finally, the two values of θ are 41.03° and 138.97°.

User Xanderflood
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4.1k points
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