A generator is a device that converts mechanical energy into electrical energy by electromagnetic induction - it "generates" (or creates) electricity.A generator is a mechanical device which converts mechanical energy to electrical energy. Generators may be driven by a broad range of sources; steam turbines, electricity, petrol, or oil, natural gas, wind, and even water (hydroelectric).
Well, darling, a galvanometer is a device used to detect and measure small electric currents, while an electric motor is a device that converts electrical energy into mechanical energy to produce motion. So, in simpler terms, one tells you how much juice is flowing, and the other one actually does the heavy lifting. Hope that clears things up for you, sugar!
440 tones
An electric motor uses electrical energy to produce mechanical energy. The reverse process, that of using mechanical energy to produce electrical energy, is accomplished by a generator or dynamo. Traction motors used on locomotives and some electric and hybrid automobiles often perform both tasks if the vehicle is equipped with dynamic brakes. Electric motors are found in household appliances such as fans, refrigerators, washing machines, pool pumps, floor vacuums, and fan-forced ovens. They are also found in many other devices such as computer equipment, in its disk drives, printers, and fans; and in some sound and video playing and recording equipment as DVD/CD players and recorders, tape players and recorders, and record players. Electric motors are also found in several kinds of toys such as some kinds of vehicles and robotic toys.An electric motor converts electrical energy into mechanical energy. Most electric motors operate through interacting magnetic field and current carrying conductors to generate force but a few use electrostatic forces.
In a modern coal fired power plant the mechanical motion of turbines is transferred by a shaft to a generator, where magnets spin within wire coils to produce electricity
An electrical motor converts electrical energy into mechanical energy to produce motion.
1 horsepower is 746 watts. You would need approximately 1340.5 horsepower to produce 1 megawatt of energy. That's a lot of horses!
In an electrical motor, electrical energy is converted into mechanical energy to produce motion. In a galvanometer, electrical energy is converted into mechanical movement of the pointer in response to the flow of current.
The 3.2 Litre is rated at 225 Horsepower, regular fuel required only. Jim
Electrical energy is converted to mechanical energy in devices like electric motors. This conversion is achieved by using the magnetic field generated by the flow of electrical current to produce a mechanical force that drives the motion of the motor. The electrical energy is transformed into rotational mechanical energy in the motor, allowing it to perform useful work.
A device that converts mechanical energy into electrical energy is called a generator. It uses the principle of electromagnetic induction to produce an electric current when a mechanical force, such as rotation, is applied to it.
Such a device is known as a generator.
No, a flashlight does not generate mechanical energy. Instead, it uses electrical energy to power the light bulb and produce light.
Usually it is produced from mechanical energy (movement), by a cable moving in a magnetic field. This will produce a voltage in the wire.
AC motor produce mechanical power and absorbed electric energy the power generator produce electrical power absorbed mechanical power
Sound can be turned into mechanical energy through a device called a transducer. Transducers convert sound waves into mechanical vibrations by utilizing the piezoelectric effect, where certain materials produce an electrical charge when subjected to mechanical stress. This electrical charge can then be harnessed to generate mechanical movement or energy.
An example of a device that produces motion is a motor. Motors convert electrical energy into motion by generating a magnetic field that interacts with conductors to produce mechanical rotation. This mechanical motion can then be used to drive various mechanical systems.