Magnetism revolves around the study of magnets and their properties. Let's take a closer look at the fundamental aspects of magnets:
Magnets
Magnetism exhibits several intriguing properties:
Attractive Property
Directive Property
Magnetic Poles
Understanding the magnetic force on moving charges and current-carrying conductors is essential. Let's explore its dynamics:
Magnetic Force on a Moving Charge
The magnetic force acting on a moving charge (q) within a magnetic field (B) is given by F = B * q * v * sin(q), where v represents the velocity vector and q signifies the angle between the direction of motion and the magnetic field.
Magnetic Force on a Current-Carrying Conductor
When a conductor carrying current (l) is placed in a magnetic field (B), the magnetic force acting on it is defined by F = B * i * l * sin(q), where i denotes the electric current flowing through the conductor, and q represents the angle between the current direction and the magnetic field.
The direction of this force can be determined using Fleming's left-hand rule, which provides a simple visual aid.
Magnetic Compass and Other Notable Terms
Magnetic Substances: Magnetic substances are classified into three types:
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