How DC Motors Works? Working of DC Motors Fully Explained with 3D Animation ...
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#motor #motors #dcmotor #motorworking #motor3d #motor3danimation
#3danimation #3delectronics #3delectrical #diyelectrical
#electrical #electrician #electricians #electricalwork #electricalworks #electricalstudent #electricalstudents #electricalengineering #electricalengineer #electricaltips #electricalwiring
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LearningTranscript
00:00This battery-powered drill uses an electric motor to spin a drill bit and drill holes in walls.
00:06Electric motors are crucial in many battery-powered devices.
00:10In this video, we'll explore how these motors work.
00:13To understand electric motors, start with a basic light bulb circuit.
00:17Electricity flows through metallic wires when pushed by voltage from a battery.
00:22When connected, the current flows from the positive to the negative terminal,
00:26lighting up the bulb.
00:28Reversing the battery or switching connections reverses the current direction.
00:32Electricity needs an uninterrupted path to flow.
00:35A break in the circuit stops the flow.
00:38Now, let's look at magnets.
00:40They have north and south poles.
00:42Opposite poles attract, while similar poles repel due to an invisible magnetic field
00:47which can be visualized with magnetic field lines.
00:50Magnets are always on, but electric motors need switchable magnets.
00:55We achieve this with electromagnets.
00:57When current flows through a wire, it creates a magnetic field,
01:01turning the wire into a magnet.
01:04This field's direction can be determined by the right-hand rule.
01:08If your thumb points in the current's direction,
01:10your fingers curl in the magnetic field's direction.
01:14Electric motors use electromagnets because they can be turned on and off.
01:19When a current-carrying wire is placed perpendicular to an external magnetic field,
01:24it experiences a force perpendicular to both the field and current,
01:28known as the motor effect.
01:31This force causes movement.
01:33In a motor, a coil of wire armature rotates within a magnetic field.
01:38The coil is connected to a commutator that reverses current direction each half cycle,
01:43keeping the coil rotating.
01:45This setup ensures continuous motion by using the motor effect.
01:50When the coil reaches vertical, the commutator temporarily breaks the circuit.
01:54The coil keeps moving due to inertia until the brushes reconnect,
01:58reversing the current and maintaining rotation.
02:01Using multiple coils and a segmented commutator improves efficiency and power.
02:06DC motors enhance power by increasing coil numbers and magnetic field strength,
02:11making them vital in technological advancements.
02:14Understanding these principles highlights the electric motor's role in modern devices.
02:19Like and follow for more informative 3D videos.