From the point of view of physics, magnetism and electricity combine to form an electromagnetic force. Electric motors use this force to yield mechanical energy. Its various components make it possible to transform the power of a magnetic field into mechanical energy. Electric motors are available in a multitude of sizes. Many Electric Motors in Baltimore MD are powerful enough to move heavy vehicles, while others can be integrated into smaller systems. These types of motors are amid the most effectual mechanical power systems known to mankind. Thanks to this efficiency and their longevity, their roles are incredibly varied.
Where can people find electric motors in everyday life and how can they be useful to him or her?
Electric motors are present in an impressive range of applications, even inside many homes. All electric hand tools contain an electric motor. They turn the locks on a drill, it allows circular saw blades to rotate, etc. Due to their durability and strength, they are excellent solutions even for heavy industrial applications where other devices would not withstand the stresses tolerated by electric motors.
Electric Motors in Baltimore MD that people never see play an essential role in everyone’s daily life. For example, electric motors circulate water from pumping stations, guarantee the supply of running water at home, and so on. They can even turn the propeller of large ships and are an essential part of maritime transport services. Electric motors are everywhere, so much so that it would be difficult to assemble even some specific things without finding a working one. Determining what type of motor is needed is almost as hard as finding the right one.
How does an electric motor work?
The operating principle of an electric motor is very simple. In physics, it is known that an electric current in a magnetic field generates a mechanical force. This motor contains electrically wired coils (identical wire to that used to carry the current). This coil is perpendicular to the magnetic field of the electric motor. Since a magnetic field always has two poles, the ends of the wires are placed in opposite directions. This configuration creates a rotary motion. For more information, click here.
