A circular loop of wire having a radius of 5.20 cm carries a current of 0.166 A. A vector of unit length and parallel to the dipole moment of the loop is given by 0.60î – 0.80ĵ. If the loop is located in a uniform magnetic field given by B=(0.590 T)î + (0.300 T)k̂, find (a) the x-component, (b) the y-component, and (c) the z-component of the torque on the loop and (d) the magnetic potential energy of the loop.

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Chapter1: Units, Trigonometry. And Vectors
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A circular loop of wire having a radius of 5.20 cm carries a current of 0.166 A. A vector of unit length and parallel to the dipole moment of the loop is given by 0.60î – 0.80ĵ. If the loop is located in a uniform magnetic field given by B=(0.590 T)î + (0.300 T)k̂, find (a) the x-component, (b) the y-component, and (c) the z-component of the torque on the loop and (d) the magnetic potential energy of the loop.

A circular loop of wire having a radius of 5.20 cm carries a current of 0.166 A. A vector of unit length and parallel to the dipole
moment of the loop is given by 0.60î - 0.80j. If the loop is located in a uniform magnetic field given by B = (0.590 T)î + (0.300 T)k,
find (a) the x-component, (b) the y-component, and (c) the z-component of the torque on the loop and (d) the magnetic potential
energy of the loop.
Transcribed Image Text:A circular loop of wire having a radius of 5.20 cm carries a current of 0.166 A. A vector of unit length and parallel to the dipole moment of the loop is given by 0.60î - 0.80j. If the loop is located in a uniform magnetic field given by B = (0.590 T)î + (0.300 T)k, find (a) the x-component, (b) the y-component, and (c) the z-component of the torque on the loop and (d) the magnetic potential energy of the loop.
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