A complete circuit requires a power source, a load (such as a light bulb or motor), and conductive material (such as wires) to connect the two components and allow the flow of electric current. The circuit needs to be closed, meaning there is a complete path for the electricity to travel from the power source, through the load, and back to the power source.
A closed circuit is a circuit where current can flow because it forms a continuous path, while a complete circuit is a closed circuit that includes all necessary components like a power source, load, and conductive path. So, a closed circuit can be a complete circuit if it has all the necessary components connected together.
A closed circuit ensures that there is a continuous path for the flow of electrons, allowing a complete transfer of energy. When the circuit is open, there is no complete path for the energy to flow, resulting in a disruption of the transfer process.
No, the ground wire is there for safety reasons and only carries current in fault conditions.
By definition an electrical circuit is a route or path that starts and finishes at the same place. So there is no part of an electrical circuit that is not necessary, because if there were it would not be an electrical circuit.An electrical circuit needs a power source. Conductors to transmit the voltage from the power source to the load. The final component of the electrical circuit is the load that you want to energize.If you remove any of the components there will be an open circuit and the load will be impossible to operate.
A continuous unbroken path of electrons is a closed circuit. If there is an opening, then it is an open circuit.
A closed circuit is a circuit where current can flow because it forms a continuous path, while a complete circuit is a closed circuit that includes all necessary components like a power source, load, and conductive path. So, a closed circuit can be a complete circuit if it has all the necessary components connected together.
A closed circuit is necessary for a complete transfer of energy because it allows for the flow of electrons from the energy source to the load and then back to the source. If the circuit is open, the flow of electrons is interrupted, and energy cannot be transferred effectively. Closing the circuit completes the pathway for the energy to move along.
-- power supply -- power-dissipating component -- connecting conductors
A closed circuit ensures that there is a continuous path for the flow of electrons, allowing a complete transfer of energy. When the circuit is open, there is no complete path for the energy to flow, resulting in a disruption of the transfer process.
In a series circuit, all bulbs are necessary to complete the circuit. If one bulb goes out, the circuit is broken, so none of the bulbs would light up.
A complete path and a voltage source.
battery, wire, and light bulb
No, the ground wire is there for safety reasons and only carries current in fault conditions.
By definition an electrical circuit is a route or path that starts and finishes at the same place. So there is no part of an electrical circuit that is not necessary, because if there were it would not be an electrical circuit.An electrical circuit needs a power source. Conductors to transmit the voltage from the power source to the load. The final component of the electrical circuit is the load that you want to energize.If you remove any of the components there will be an open circuit and the load will be impossible to operate.
A path for electricity to flow is called a circuit. In a circuit, electrical current can flow from the power source through a conductor (such as a wire) to power an electrical device before returning to the power source. A complete circuit is necessary for electricity to flow.
An open circuit or a short-circuit (if that circuit is complete).
no, the circuit won't complete