Class 10 Handwritten Notes Of Science chapter 13 ( Magnetic Effects of Electric Current ) Free PDF Download
Class 10th handwritten Notes of science chapter - 13 ( Magnetic Effects of Electric Current ) Free PDF Download in this post we are cover all topic of chapter 13 handwritten notes of sciences | chapter 13 Science |
The magnetic effects of electric current are the phenomena that occur when a conductor, such as a wire, is placed in a magnetic field. When a current passes through the conductor, it creates its own magnetic field, which interacts with the magnetic field of the surrounding environment. The interaction between these two fields creates a force on the conductor, causing it to move or experience a torque. This phenomenon is known as the Lorentz force, and it can be used to generate electricity or power motors and other devices. Additionally, the magnetic field created by the electric current can also be used to detect the presence of other magnetic fields and measure their strength.
Electric current is the flow of electric charge through a conductor. It produces a variety of magnetic effects.
One of the most common is the generation of a magnetic field, which is a region around a wire or other conductor where a magnetic force exists. This magnetic field can be used to attract or repel other magnetic materials or to create a voltage across a conductor.
Another magnetic effect of electric current is the generation of an electric field. This electric field is a region around a wire or other conductor where an electric force exists. This electric field can be used to create a voltage across a conductor or to induce an electric current in another conductor.
The most powerful magnetic effect of electric current is the generation of a rotating magnetic field. This rotating magnetic field is created when two coils of wire are placed close to each other and electric current is passed through one of the coils. This rotating magnetic field is used in electric motors and generators.
Finally, electric current can also cause magnetization of a material. This means that it can cause a material to become magnetized, which can be used to create permanent magnets or to create a strong magnetic field.