A: ANY part that uses current to do the work will use some of the input energy to make it operational. this energy is called dissipation of the device and it is wasted as heat
The circuit is incomplete, you will have no continuity, no flow of current to the load or other components. The voltage across every component in the circuit is zero. No part of the circuit stores or dissipates any energy. In short, the circuit doesn't work.
The generic name of that part is the LOAD.
In a circuit, common symbols include resistors, capacitors, and inductors. A resistor (represented by a zigzag line) limits current flow and dissipates energy as heat. A capacitor (depicted as two parallel lines) stores electrical energy temporarily and releases it when needed, helping to smooth out voltage fluctuations. An inductor (illustrated as a coiled wire) stores energy in a magnetic field when electrical current passes through it, often used for filtering and energy storage in power supplies.
when a light is on it is part of a scolde circuit
resistance in the circuit
The circuit is incomplete, you will have no continuity, no flow of current to the load or other components. The voltage across every component in the circuit is zero. No part of the circuit stores or dissipates any energy. In short, the circuit doesn't work.
Power dissipation.
it runs out of energy and dissipates.
Inside an electric cell, chemical energy is converted into electrical energy. When the cell is part of a complete electric circuit, the electrical energy is then converted into other forms of energy, such as light, heat, or mechanical work, depending on the components in the circuit.
The term used to describe how much heat a circuit dissipates is "power dissipation." It refers to the amount of power that is converted into heat as the circuit operates, usually measured in watts.
The power source, such as a battery or generator, provides the energy in a circuit. It supplies the voltage needed to push electrons through the circuit.
That's what the battery does.
The power supply is the part that provides energy for each circuit. It converts electrical energy from a source into the appropriate voltage, current, and frequency to power the circuits.
The generic name of that part is the LOAD.
The energy dissipates, meaning that as the wave breaks, it will eventually convert to heat.The energy dissipates, meaning that as the wave breaks, it will eventually convert to heat.The energy dissipates, meaning that as the wave breaks, it will eventually convert to heat.The energy dissipates, meaning that as the wave breaks, it will eventually convert to heat.
Batteries have chemical energy stored inside them. Of course, when they provide a current, this chemical energy is transformed (in part) into electrical energy.
The energy source for a circuit is called a power supply. It provides the electrical energy needed to power the components in the circuit. This can be in the form of batteries, generators, or direct mains electricity.