switch, motor or rotor.
2 amperes
Current is the flow of electric charge or the rate of the flow of an electric charge through a conductor.
The voltage across a part of an electric circuit is measured in volts (V). It represents the electric potential difference between two points in the circuit, indicating how much energy per unit charge is available to drive the flow of electric current. Measuring voltage is essential for analyzing and troubleshooting electrical systems. Common tools for measuring voltage include multimeters and voltmeters.
For parallel circuit, there's bronchus which mean the electric current'd have to choose which path to go. There's a main loop and more than one bronchus.If the bulb in one of the bronchus break down,the other bulbs would still light up. For series circuit,there's only one path for the electric current to flow through.If one of the bulb breaks down,the other'd go out as well. The electric current of evbery bulb in a series circuit is the same while the electric current of bulb in parallel circuit are not the same. The sum of the bronchus in a parallel circuit is equal to the main loop's.The more bulbs in a path,the more resistance will there be and less brighter it will be.A larger current will flow through the path with lower resistance so te brightness of the bulb of the bronchus will hace differences asc well.
The parts of an electric circuit are: 1.Source 2.Path 3.Load 4.Means of Control Part of caring:)
An electric circuit is opened whenever a part of it is not connected to anything.
A switch, switching transistor, or circuit breaker usually does.
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.
2 amperes
Battery.
Current is the flow of electric charge or the rate of the flow of an electric charge through a conductor.
When a battery's negative terminal is not connected to a circuit, it accumulates excess electrons, creating a negative charge. This creates a potential difference between the positive and negative terminals, which is the driving force for the flow of electric current when the battery is connected to a circuit.
The third part of an electric circuit is the power source, which provides the electrical energy needed to drive the current through the circuit and power the load. This can be a battery, generator, or power supply depending on the application.
An electric circuit is a system of several parts. The circuit cannot function without all of them therefore there is no 'main' part. Essential parts are; power source, conducting material, load.
The part of an electric circuit that adds electric energy is called a "source." Common examples of sources include batteries and power supplies, which convert stored energy or electrical energy from the grid into a usable form for the circuit. These sources provide the necessary voltage and current to drive the operation of electrical devices and components within the circuit.
Either the cell e.g. a battery, if one is included in the circuit. Or a generator such as a dynamo
A 'series circuit' does that.