Nature of Electrivity and Magnetism

INTRODUCTION: In this article we will explore the current developments in views on electricity and magnetism. The paper started from ancient Greeks and will continue until now. In the course of deepening our understanding of modern electricity, magnetism and electromagnetics, our predecessors have investigated and are now accepted and replicated in modern classrooms. As new phenomena are observed, we will try to explain new explanations and conclusions.

Electromagnetism is essentially one of four basic forces. As the name suggests, this is the interaction between the electric field and the magnetic field. Power and magnetism were originally thought to be separate forces, but when James Clark Maxwell announced his "power and magnetism" in 1873, both phenomena can be explained by force It was. In this article we will explore how to use this power for all forms of wireless communication. When there is interference in the electromagnetic field, electromagnetic waves are generated. This type of interference can occur when you simply touch the end of the wire with the battery terminal. This allows current to flow through the wire which in turn generates weak electromagnetic waves which spread outward in all directions. The wave created in our example does not move far and does not contain any information.

Description: Electromagnetic waves are formed when the electric field comes into contact with the magnetic field. Therefore, they are called "electromagnetic waves". The electric and magnetic fields of electromagnetic waves are perpendicular to each other (right angle). They are also perpendicular to the direction of the electromagnetic waves. Electromagnetic waves travel at a constant speed of 3.00 × 10 8 ms -1 in vacuum. They are neither deflected nor deflected by a magnetic field. However, they may exhibit interference or diffraction. Electromagnetic waves will penetrate everything from air, solid material, vacuum etc. There is no need for media to move or move from one place to another. Mechanical waves (such as sound waves and water waves), on the other hand, require a medium to propagate. Electromagnetic waves are "sideways" waves. This means that their amplitudes (heights) and wavelengths (the distance between the highest and lowest points of two consecutive waves) are measured