The rotor turns (rotates) causing magnetic fields to move across a coil of wire. This induces an electrical current in the wires of the coil.
The process in which electric current is produced when a spinning shaft rotates magnets inside a generator is referred to as 'Direct Current'. It is not expected to work by the normal standard physics model however some people claim it is just.
It is a conductor, it conducts the electric current generated to the load that is being supplied with power.
Power = E I25,000 = 105 II = 25,000 / 105 = 238.1 Amp
You don't generate current. You generate voltage, and the amount of current that leaves the generator is determined by the devices that are designed to run with that voltage, and draw their operating energy from your generator. You choose the size of the materials used to construct your generator based on the maximum amount of current you expect it to be asked to deliver by its users. But the actual current at any moment will depend on how many people are using it for their supply, and what kind of appliances they're operating. If nobody is using power from your generator, or the output cables are disconnected from it, then you can run it all you want and the current will be zero. Before you decide on the final design and go out for bids to construct your generating station, you might like to review the topics of voltage, current, power, and energy, and get them straight in your mind.
Here are the main differences between an electric motor and an electric generator: Functionality: Electric motors convert electrical energy into mechanical or kinetic energy, whereas electric generators convert mechanical energy into electrical energy. Usage: Electric motors are used in fans, mixers, washing machines, and other household appliances, whereas electric generators are used as power backup during outages, in construction sites, mining areas, and agriculture. Fleming’s Rule: Electric motors follow Fleming’s left-hand rule, whereas electric generators follow Fleming’s right-hand rule. Principle: The working principle of a motor is based on the current-carrying conductor, whereas the working principle of a generator is based on electromagnetic induction. Current: In motors, the current has to be supplied to armature windings, whereas in generators, armature windings produce current. EMF: Electric motors give out back EMF, whereas electric generators produce induced EMF.
electric current generate so many types one of mechanical energy convert electrical energy by using generator
Every 'electrical generator' does that.
electric current generate so many types one of mechanical energy convert electrical energy by using generator
A generator or an alternator.
Originates from the power company's (usually the local utility) grid where they generate electric power for sale and distribution.
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generator
a generator
The purpose of a generator is to generate electricity. An electric generator would be redundant. It would need electricity to make electricity and when there is a power outage there is not electricity.
Not a constant electric current but a changing one will generate electromagnetic waves.First: If you have a lone electron, and it is accelerated in any way, it will send off an electromagnetic wave. This is because a changing electric field generates a magnetic field.It is also true that changing magnetic field will generate an electric field. This is the reason that if you have an electric current, which is generating a magnetic field, and you change the current you generate an electromagnetic wave. To generate a continuous sinusoidal electromagnetic wave you continuously change the current sinusoidally.
A generator moves a coil of wire through a magnetic field and that induces a current in the coil .
A generator moves a coil of wire through a magnetic field and that induces a current in the coil .