DC Amperes times Volts=Watts. Watts is heat. AC current is a little trickier because of the sine wave and several other problems, but what you want to measure is RMS volts and amps at 100% power factor.
Electricity can transformed to heat by passing through a resistance. For a more efficient use of energy, it should use refrigeration cycle or heat pump convey heat from one source to the desired location.
An electrically operated water heater uses electrical energy to generate heat.
The heat energy is then transferred to the bottom of the water by conduction,
and spreads throughout the tank by convection.
Heat is the transfer of energy from a warmer body to a cooler body.
When an electric current flows, it does work on the conductor, raising the conductor's internal energy (i.e. causing its atoms to vibrate). An increase in internal energy is always accompanied by an increase in temperature, causing heat transfer from the conductor into the surroundings.
The simplest electronic component is probably the resistor.
A resistor has no purpose other than to "resist" the flow of electricity. It performs no function other than turning electrical energy into heat energy. (Usually the purpose is not to generate heat, but to control voltage or current and the generation of heat is secondary.)
If a current I flows through a resistor R, then the rate power, P, is
P=I2R.
Similarly, if a voltage drop of V occurs across a resistor, the Power is,
P=V2/R.
These are the same as saying that power associated with a resistor is, P=VI.
The power is the rate at which heat is generated and therefore the rate at which electrical energy is converted to heat energy.
Electric current is the flow of electrons through a substance that will permit that flow. The energy that was moving the electrons forwarded is converted to heat energy.
Light bulb, generator, heater, electric stove, air conditioner
There are a number of different ways to do this. Most involve converting the heat energy into mechanical energy and then transferring that mechanical energy into an electrical generator.
From electrical energy to heat energy
No it is the conversion of potential energy into electrical energy.
A photocell converts light energy (radiant electromagnetic energy to be precise) into electrical energy. A thermocouple can convert heat into electrical energy. The radiant em conversion yields much more energy than a heat conversion.
I assume you are referring to energy conversions. Well, the whole PURPOSE of an electric iron is to produce heat, and being electric means that it uses electrical energy, so the conversion is, simply, from electrical energy to heat.
Chemical energy and heat energy
From electrical energy to heat energy
an elecric heater uses the conversion of electrical energy into heat energy.
Heat
No it is the conversion of potential energy into electrical energy.
A photocell converts light energy (radiant electromagnetic energy to be precise) into electrical energy. A thermocouple can convert heat into electrical energy. The radiant em conversion yields much more energy than a heat conversion.
Flashlight: electrical energy -> radiant energyBattery: chemical energy -> electrical energyToaster: electrical energy -> heat energyMotor: electrical energy -> kinetic energy
Electrical energy--->sound energy+ heat energy and light energy Cheers M
Electrical-sound-light-heat
electrical energy>>>>mechanical energy>>>>heat energy
I assume you are referring to energy conversions. Well, the whole PURPOSE of an electric iron is to produce heat, and being electric means that it uses electrical energy, so the conversion is, simply, from electrical energy to heat.
Chemical energy and heat energy
microwave oven-electrical to heat stove-chemical to heat windmills mechanical to electrical firecracker-chemical to heat and sound