To state it in the simplest terms, wires are caused to pass through magnetic fields. As a result, voltages are generated in the wires.
That being said there are alternative ways of look at it.
Look at Wikipedia.org's article on induction for the principle at the heart of it all. Refer to the related link in the Related Links section below.
A generator converts mechanical energy, such as kinetic energy, into electrical energy through electromagnetic induction. The rotation of the generator's turbine causes a magnetic field to fluctuate, inducing a current in the wire coils of the generator. This process transforms kinetic energy into electrical energy that can be used to power electrical devices.
Mechanical energy from the spinning turbine is converted into electrical energy by the generator. This process involves electromagnetic induction where the rotating shafts induce a current in the generator's coils, producing electricity.
If no electrical load is attached to a running generator, the electrical energy generated typically backs up onto the grid or remains within the generator's internal electrical system. It is important to have a load connected to a generator to ensure efficient and proper functioning.
A generator transforms mechanical energy into electrical energy through the movement of a wire within a magnetic field. This causes the wire to experience a force, leading to the flow of electrons and the generation of an electric current.
An electric generator produces electrical energy. It converts mechanical energy to electrical energy by interacting with a magnetic field. The amount of electrical energy converted to useful work in a given time interval is the power output. If the generator is not connected to any load, then no work is done and there is no power.
If the load is too heavy the voltage droops because of the drop across the generator's internal impedance.
A Generator is electrical machine which produces electrical current and voltage..
An electrical generator generates electrical energy. It takes some kind of mechanical energy to turn the generator. The generator is said to convert mechanical energy into electrical energy.
The generators transfer mechanical energy into very useful electrical energy.
A generator can transform energy into electrical energy :)
A generator converts mechanical energy into electrical energy.
A generator converts mechanical energy, such as kinetic energy, into electrical energy through electromagnetic induction. The rotation of the generator's turbine causes a magnetic field to fluctuate, inducing a current in the wire coils of the generator. This process transforms kinetic energy into electrical energy that can be used to power electrical devices.
Mechanical energy from the spinning turbine is converted into electrical energy by the generator. This process involves electromagnetic induction where the rotating shafts induce a current in the generator's coils, producing electricity.
A generator transforms mechanical energy into electrical energy.
An electric motor converts electrical energy into mechanical energy. While an electrical generator does the opposite.
Motors convert electrical energy into mechanical energy and generator converts mechanical energy into electrical energy
A generator converts mechanical power into electrical power. A motor converts electrical power into mechanical power.