How should you place a current-carrying square loop in a uniform magnetic field such that there's no net magnetic torque on the loop (select all that apply)? Place it so that its magnetic dipole moment is anti-parallel to the magnetic field Place it so that the angle between its magnetic dipole moment and the magnetic field is exactly 180° Place it so that its magnetic dipole moment is parallel to the magnetic field Place it so that the angle between its magnetic dipole moment and the magnetic field is exactly 90° Place it so that the angle between its magnetic dipole moment and the magnetic field is exactly 0°

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Chapter1: Units, Trigonometry. And Vectors
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### How to Position a Current-Carrying Square Loop in a Magnetic Field

**Question:** How should you place a current-carrying square loop in a uniform magnetic field such that there's no net magnetic torque on the loop (select all that apply)?

- [x] **Place it so that its magnetic dipole moment is anti-parallel to the magnetic field.**

- [x] **Place it so that the angle between its magnetic dipole moment and the magnetic field is exactly 180°.**

- [x] **Place it so that its magnetic dipole moment is parallel to the magnetic field.**

- [ ] **Place it so that the angle between its magnetic dipole moment and the magnetic field is exactly 90°.**

- [x] **Place it so that the angle between its magnetic dipole moment and the magnetic field is exactly 0°.**
Transcribed Image Text:### How to Position a Current-Carrying Square Loop in a Magnetic Field **Question:** How should you place a current-carrying square loop in a uniform magnetic field such that there's no net magnetic torque on the loop (select all that apply)? - [x] **Place it so that its magnetic dipole moment is anti-parallel to the magnetic field.** - [x] **Place it so that the angle between its magnetic dipole moment and the magnetic field is exactly 180°.** - [x] **Place it so that its magnetic dipole moment is parallel to the magnetic field.** - [ ] **Place it so that the angle between its magnetic dipole moment and the magnetic field is exactly 90°.** - [x] **Place it so that the angle between its magnetic dipole moment and the magnetic field is exactly 0°.**
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