This is done at every power station that uses the Rankine cycle, whether using fossil fuels or nuclear fuel. The heat produced by the fuel is used to produce high pressure steam which is then expanded through a steam turbine which is coupled to a generator, which sends out the electric power to the main transmission line.
Heat.
Electric energy can be converted into heat through resistive elements like heating coils or electric stoves. It can be converted into motion through electric motors, which use electromagnetic forces to generate rotational or linear motion.
energy is never lost. It is either converted from one form of energy to another (from heat to mechanical, from mechanical to electric, from electric to heat).
Yes. The electric motor does emit some heat. Also, when the car is stopping, forward energy is converted into heat.
Light bulb: Electrical energy is converted into light and heat energy. Electric heater: Electrical energy is converted into heat energy. Television: Electrical energy is converted into light and sound energy. Electric fan: Electrical energy is converted into mechanical and sound energy. Computer: Electrical energy is converted into heat and sound energy, as well as processing and display energy.
energy is never lost. It is either converted from one form of energy to another (from heat to mechanical, from mechanical to electric, from electric to heat).
In a candle, the heat energy produced by the burning wax is converted to light energy and heat energy. This conversion is not an efficient process and does not directly produce electric energy. However, the light energy emitted by the candle can be converted to electric energy through technologies like solar panels that capture sunlight.
yes... for example electrical energy is converted to heat and light energy in a light bulb
Yes, electric energy can be converted to heat energy through the resistance in a material. When an electric current flows through a resistor, such as a heating element in a toaster or electric stove, the resistance causes the electrical energy to be dissipated as heat.
The electrical energy is converted to both heat and light energy.
Electric energy is converted into light and heat energy in an incandescent lamp. The electric current passing through the filament of the lamp heats it up, causing it to emit light as well as heat.
An electric bulb converts electrical energy into light energy and heat energy. When electricity flows through the filament of the bulb, it heats up and emits light as a result of the high temperature. Some of the electrical energy is also converted into heat energy, making the bulb hot to the touch.