An electromagnet, a coil of wire round a magnetic core. An electric current in the wire produces a magnetic field round the core, which contains energy which could be used to lift a load.
Briefly: 1. Current flows through the wires in the Stator and the Rotor. 2. A magnetic field is generated in the Stator and the Rotor, caused by the Current Flow. 3. Because of the design of the "Wire Windings" of the Stator and Rotor, there Magnetic Fields are OPPOSITE each other, and REPEL each other. 4. If the Magnetic Fields are strong enough to overcome FRICTION (and any LOAD attached to the Motor), the Rotor begins to turn. 5. The Speed (RPM) of the Motor is either regulated by its design, or the LOAD.
Throwing a ball into the air.
Do that on your kitchen table, and right there before your eyes, you have . . . -- a series electrical circuit -- electric current -- a magnetic field (around the wire; you can't see it) -- power dissipation -- conversion of chemical energy into electrical energy -- conversion of electrical energy into heat and light -- electromagnetic radiation in the infrared and visible bands
An electric motor uses an electromagnet to create a magnetic field, which interacts with a permanent magnet to generate rotational motion. When an electric current flows through the electromagnet, it creates a magnetic force that causes the motor to turn.
Energy changes involved in cooking include converting electrical or thermal energy to heat energy to cook food, converting potential energy in food into kinetic energy for cooking processes such as stirring or chopping, and converting heat energy to chemical energy through reactions like caramelization or Maillard browning.
An example of electrical energy changing to kinetic energy is the operation of an electric motor. When electricity flows through the motor, it generates a magnetic field that causes the motor to spin, converting the electrical energy into mechanical kinetic energy.
Motor is an example of converting electrical energy into mechanical energy
An example of converting electrical energy to thermal energy is using an electric heater. When electricity flows through the heating coil, the resistance of the coil generates heat, converting the electrical energy to thermal energy that warms up the surroundings.
Electrical energy is transferred to mechanical energy when an electric motor is used. The electric motor uses the electrical energy to generate a magnetic field, which interacts with other magnetic fields to produce a rotating motion, thus converting electrical energy into mechanical energy.
Some examples of converting electrical energy to mechanical energy include electric motors in vehicles, fans, and power tools. When electricity flows through the motor, it generates a magnetic field that interacts with the motor's components to create mechanical motion.
One example of converting light energy to electrical energy is through the use of photovoltaic cells in solar panels. When sunlight hits the cells, it generates an electric current through the photovoltaic effect, allowing the light energy to be converted into usable electrical energy.
A car engine, a coal or petroleum power plant, a nuclear reactor.
An electromagnet works by converting electrical energy into magnetic energy. When an electric current flows through a coil of wire, it creates a magnetic field around the coil. This magnetic field can attract or repel other magnetic materials. The energy transformation process involves the conversion of electrical energy into magnetic energy, which allows the electromagnet to perform tasks such as picking up metal objects or controlling the movement of machinery.
An example of a change from chemical energy to electrical energy is when a battery powers a device such as a smartphone. The chemical reactions inside the battery generate electrical energy that is then used to power the device.
Anssorry, you didn't list the option?I would say its kinetic for sure. But you didn't say what powers the generator? For example, if its hydroelectric (like an electric dam), then no combustion takes place.
An example of converting chemical energy to electric energy is in a battery. Inside a battery, chemical reactions occur that release electrical energy, which can then be used to power devices such as smartphones or laptops.
Yes, an electrical generator uses magnetic fields to transfer mechanical energy into electrical energy.