A planet with earth like magnetic field can be considered as a bar magnet. Suppose, we have such a bar magnet. We will treat it a magnetic dipole. Its dipole moment is given by the i = Hy3+ µzk which remains unchanged without the application of external magnetic field. Suppose, a uniform magnetic field given by, B = ((42.0) ĵ +(-60.0) k) field is applied, the bar magnet starts to rotate. At some instant during rotation, consider it as "position 1" of the dipole, it's torque is Ť = (-3420.19944727) × 1029.0 % N · m and potential energy is U = –3928.529972 × 1029.0 J. %3D x 10° Tesla. Some neutron stars can generate such intense magnetic field. When this magnetic i) Find the y and z component of magnetic dipole moment at this position?
A planet with earth like magnetic field can be considered as a bar magnet. Suppose, we have such a bar magnet. We will treat it a magnetic dipole. Its dipole moment is given by the i = Hy3+ µzk which remains unchanged without the application of external magnetic field. Suppose, a uniform magnetic field given by, B = ((42.0) ĵ +(-60.0) k) field is applied, the bar magnet starts to rotate. At some instant during rotation, consider it as "position 1" of the dipole, it's torque is Ť = (-3420.19944727) × 1029.0 % N · m and potential energy is U = –3928.529972 × 1029.0 J. %3D x 10° Tesla. Some neutron stars can generate such intense magnetic field. When this magnetic i) Find the y and z component of magnetic dipole moment at this position?
College Physics
1st Edition
ISBN:9781938168000
Author:Paul Peter Urone, Roger Hinrichs
Publisher:Paul Peter Urone, Roger Hinrichs
Chapter18: Electric Charge And Electric Field
Section: Chapter Questions
Problem 53PE: A simple and common technique for accelerating electrons is shown in Figure 18.55, where there is a...
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