The axle holds the armature and the commutator. Coils of wire are wrapped around the armature, forming one or . People often use the word motor to describe the engine in their car, but the term usually refers to electric motors. The development of these devices revolutionized society and helped pulled the world into the modern technological era.
There are many kinds of electric motors but in general they have some similar parts.
In an electric motor , the moving part is the rotor, which turns the shaft to deliver the mechanical power.
Electrical Motors Basic Components.
The rotor usually has conductors laid into it that carry currents, which interact with the magnetic field of the stator to generate the forces that turn the shaft. However, some rotors carry permanent magnets, and the stator . How does this work in practice? Exactly how do your convert electricity into movement?
To find the answer to that, we . An AC motor has two basic electrical parts : a stator and a rotor as shown in Figure 8. The stator is in the stationary electrical component.
A coil of wire is used with lots of turns to increase the effect of the magnetic field. Torque is controlled by adding several loops to the armatures and the magnetic field is produced by an electromagnet. This is fundamental in understanding what parts of an electric m. In your house, almost every mechanical movement that you see around you is caused by an AC (alternating current) or DC (direct current) electric motor. A simple motor has six parts : Keep Reading Below.
The flipping the electric field part of an electric motor is accomplished by two parts : the commutator and the brushes.
The diagram at the right shows how the commutator and brushes work together to let current flow to the electromagnet, and also to flip the direction that the electrons are flowing at . The Anatomy of the Motor : What are its components ? The ceramic bar magnet provides the magnetic field in this simple DC motor. With the magnet in position, the magnetic . This loop will be the main spinning part of the electric motor. Actually, our design will simply turn the current on and off instead of changing the direction.
We are going to do this by shaving off part of the . Part of an interactive on-line booklet about electric motors explaining how the motor turns.
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