Electric motors work by placing the opposite poles of an electromagnet that is fixed onto a spindle or axle near to either end of a fixed magnet. This causes the moving electromagnet to spin slightly then come to a halt. If, at the correct time, the battery or other source of current feeding the electromagnet is flipped - thus reversing the polarity - it will complete another slight spin in the same direction. The repitition of this action provides the movement required to make the spindle of the motor rotate.
Other answers
What makes a motor turn is based on the fact that magnetic fields produce physical force that can move things. If you have ever played with magnets you have seen this in action as you use one magnet to attract another magnet or force it to move without touching it, depending on how you line up their poles.
All magnets have a north pole and a south pole. Like poles repel each other and unlike poles attract each other.
So, in a motor, electricity is used to create magnetic fields that oppose each other and cause something to move, which happens to the motor's rotating part, called the "rotor".
On the rotor there are loops of wiring - called "windings" - that have an opposing magnetic field to a magnetic field produced in the housing of the motor that does not move, which is called the "stator". Its magnetic field is produced either, in the case of a very small motors, by permanent magnets or, for most other sizes of electric motor, by loops of wiring called"field windings".
It is the repelling action of the opposing magnetic fields which causes the rotor to turn inside the stator.
In heavy electric motors having field windings, big problems can arise from excessive heat buildup - including a high risk of the motor's windings and/or its power input cables catching on fire - if something ever prevents the rotor from turning whilst it is still being supplied with electricity. If properly-sized circuit breakers are not installed to give the motor adequate overcurrent protection, any general overloading of the motor or siezed rotor shaft bearings can easily cause such problems.
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Electric motors convert electrical energy to mechanical energy.
Inside the cover of any electric motor there are 2 kinds of magnets:
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The rotor is always an electro-magnet and when you give it electricity, its copper coils make its metal pieces (which are in the middle of the coils) magnetic.
Many chemicals are needed. Electricity and raid are typically neither.
-A generator or alternator -A Faraday Induction Coil
Not sure if there is a book about it, but lots of fruit can make electricity. Citrus fruits like lemons and oranges tend to work well, but potatoes can do it too.
heat homes all of these make electricity make steel
A 2-stroke engine is a type of internal combustion engine, and a generator is something that turns a motion into electricity.
electricity is formed into motion by a motor
No. A turbine turns linear motion of a working fluid (which can be a liquid or gas) into rotational motion. No electricity need be involved.You can hook a turbine to a generator and use the rotational motion produced by the turbine to make electricity. But the turbine itself does not do this.
Electricity in motion is called electric current. It is the flow of electric charge through a conductor.
Static electricity
friction
An electric motor
Electricity is an energy that can make changes in matter, and create light, heat, or motion. It is made when fossil fuels are burned at a power plant and he pressure builds up with the smoke and it makes a turbine spin, that turbine then uses other materials such as magnets to make electricity from there.
An electric motor is a device that uses electricity to create mechanical motion, usually by converting electrical energy into rotational motion. Electric motors are commonly used in various applications such as household appliances, power tools, and vehicles to make things move.
An electric motor is a device that uses electricity to create mechanical motion. It converts electrical energy into rotational motion by utilizing electromagnetic principles. Electric motors are commonly found in appliances, vehicles, and industrial machinery.
A motor takes electricity and creates rotating motion. A generator takes rotating motion and turns it into electricity.
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