Magnetic Fields in Current-Carrying Loops and Ideal Solenoids - General Physics
Chad's Prep via YouTube
Overview
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Explore the principles of magnetic fields in current-carrying loops and ideal solenoids in this comprehensive physics lesson. Learn the physics formula for calculating the magnitude of magnetic fields at the center of current-carrying loops and understand the new right-hand rule for determining field direction. Discover how ideal solenoids generate magnetic fields through their centers, along with the corresponding formula and right-hand rule for direction determination. Apply your knowledge by solving practice problems to calculate magnetic field magnitudes at the centers of loops and ideal solenoids. Gain a solid understanding of these fundamental concepts in electromagnetism to enhance your physics expertise.
Syllabus
Lesson Introduction
Magnetic Field at the Center of a Current-Carrying Loop
Magnetic Field at the Center of an Ideal Solenoid
Current-Carrying Loop and Solenoid Practice Problems
Taught by
Chad's Prep