Chad provides a lesson on the Magnetic Field at the center of a CurrentCarrying Loop and at the center of an Ideal Solenoid. For a currentcarrying loop, the current in all segments will contribute to a magnetic field at the center of the loop that is perpendicular to the loop. Chad provides the physics formula for the magnitude of this magnetic field and presents a new right hand rule that is used to determine the direction of this magnetic field.
An ideal solenoid also has a magnetic field running through its center, and the physics formula for the magnitude of this magnetic field and presents a right hand rule (essentially the same as that for the currentcarrying loop) that is used to determine the direction of this magnetic field. The lesson is concluded with the solving a couple of practice problems in which the magnitude of the magnetic field is calculated at the center of a loop and at the center of an ideal solenoid.
00:00 Lesson Introduction
00:44 Magnetic Field at the Center of a CurrentCarrying Loop
04:07 Magnetic Field at the Center of an Ideal Solenoid
06:15 CurrentCarrying Loop and Solenoid Practice Problems
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