An electric motor
That's an electrical generator, whether the mechanical energy comes from steam or water flowing through a turbine, or wind, or tides.
The generator transforms mechanical energy to electrical energy by rotating a wired coil within a magnetic field. The mechanical energy is from steam in nuclear and combustion reactors (oil, gas coal). In hydro and wind power, it is from rotating turbines.
Motors convert electrical energy into mechaincal energy through Faraday's law:0 = dB/dt + Del x Ev. The electrical input causes the motors magnetic field to rotate and the rotor of the motor follows outputting mechanical energy.
You use an electrical generator. The shaft can be turned by any source of mechanical energy . . . such as falling water, a windmill turned by wind, a turbine turned by steam, a belt turned by a gas engine, a treadmill turned by hamsters etc. When the shaft turns, out comes electrical energy.
Through electric motors
That's an electrical generator, whether the mechanical energy comes from steam or water flowing through a turbine, or wind, or tides.
That's an electrical generator, whether the mechanical energy comes from steam or water flowing through a turbine, or wind, or tides.
That's an electrical generator, whether the mechanical energy comes from steam or water flowing through a turbine, or wind, or tides.
The usual setup is called a generator. The basic idea here is that a piece of wire moves through a magnetic field; this will cause an electrical current. The electrical current causes another magnetic field that opposes the movement, so it requires (mechanical) energy to keep it moving.The usual setup is called a generator. The basic idea here is that a piece of wire moves through a magnetic field; this will cause an electrical current. The electrical current causes another magnetic field that opposes the movement, so it requires (mechanical) energy to keep it moving.The usual setup is called a generator. The basic idea here is that a piece of wire moves through a magnetic field; this will cause an electrical current. The electrical current causes another magnetic field that opposes the movement, so it requires (mechanical) energy to keep it moving.The usual setup is called a generator. The basic idea here is that a piece of wire moves through a magnetic field; this will cause an electrical current. The electrical current causes another magnetic field that opposes the movement, so it requires (mechanical) energy to keep it moving.
Generally a motor. A generator (again generally) converts mechanical into electrical energy.
The generator transforms mechanical energy to electrical energy by rotating a wired coil within a magnetic field. The mechanical energy is from steam in nuclear and combustion reactors (oil, gas coal). In hydro and wind power, it is from rotating turbines.
Generator is a machine which converts mechanical energy into electrical energy.For conversion of mechanical energy in to electrical energy, it uses electromagnetic induction principle.For electromagnetic induction to happen, three things are required.These are:Magnetic fieldConductorMotionSo, when the conductor starts rotating through the magnetic field or the magnetic field cuts the conductor, emf( electromotive force) or voltage is induced in the conductor.So, the conductor in which the voltage is induced in it is known as armature
Stator is part of rotating mechanical device thats sorrounds the rotor to rotate it through the induced magnetic field while the Rotor, is the one who is rotated by produced magnetic field in the stator,.
Motors convert electrical energy to mechanical energy through moving electric conductors through a magnetic field. Magnets can be permanent magnets or electromagnets.
KISS Answer: An electrical motor converts electric energy by using electrical energy from the battery to mechanical energy by coursing the electricity through coils of wires that are in a magnetic field. The negative charge of the battery is repulsed by a positive charge created by magnets in the motor. This causes the motor to rotate, and mechanical gears and such rotate the axle which drives the wheel. Eventually the battery will expel all its electrical energy by this process.The regenerative braking reverses some of this action by creating an electrical current from the mechanical action of the wheels. The charge of electricity is produced by rotating a set of wires within the magnetic field. The energy source is created by the resistance of the wires rotating within the magnetic field. So the kinetic energy of the wheels is used to create electrical energy which is stored in the battery. You can't get something out of nothing, so the conversion of the mechanical energy to electrical energy causes the motor to slow down, and the cart to brake.ELECTRICAL ENERGY (BATTERY) > MOTOR = INCREASED MOTION (DEPLETING BATTERY)KINETIC ENERGY (MOVING CART) > BATTERY = DECREASED MOTION (CHARGING BATTERY)
One way this can take place is through the use of an AC generator. When a coil is rotated through a magnetic field the changing magnetic flux induces an electrical current. Other ways include the use of wind energy, hydroelectric turbines, dams etc.
Current is created when electrical charges move through a wire or other conductor. It can be produced by rotating magnetic fields (as in a generator) or by connecting a source of higher electrical potential (charge) to one of lower electrical potential, which can cause the movement of charges from one point to another.