you can see that the battery needs battery so that's why
A circuit with five resistors and a battery is constructed by connecting the resistors in series or parallel to create a closed loop for the flow of electric current from the battery through the resistors. The battery provides the energy for the current to flow through the resistors, which resist the flow of current. The arrangement of the resistors and the battery determines the overall resistance and current flow in the circuit.
When connecting a car battery, a spark may occur due to the sudden flow of electricity between the battery terminals and the cables. This spark is caused by the initial surge of current as the circuit is completed, which can create a small arc of electricity.
When connecting the negative terminal of a car battery, a spark may occur due to the sudden flow of electricity between the battery and the vehicle's electrical system. This spark is caused by the completion of the circuit and is a normal part of the connection process.
well its simple whoever asked this question is thick. It gives charge because a battery is the source of electricity therefore firing up the current and electron.
The battery sparks when connecting due to a sudden flow of electricity between the battery terminals, which can create a small spark as the connection is made.
resistors are used to resist the flow of current in a circuit.......
When the switch is closed, it creates a complete circuit for the flow of electricity from the battery. This allows the electrons to move freely and increases the flow of current in the circuit.
Electricity can flow in an electric circuit by a battery. The battery creates electrons, which flow through the wire, and then go into a light bulb. (That is how a light bulb in a circuit lights up.) A series circuit is a circuit with one wire that electrons can flow through. Also, there can be more than one light bulb connecting to the same wire. A parallel circuit is a circuit with light bulbs that have their own wire.ClarificationThe above answer, unfortunately, perpetuates the myth that current leaves a battery, and finds its way around a circuit. This is not the case at all. It is the load that 'draws' the current from the battery and it is the load that determines the size of that current.
When connecting the positive terminal of a battery, a spark may occur due to the sudden flow of electricity between the battery and the connected device. This spark is caused by the initial surge of current as the circuit is completed, creating a brief moment of high electrical resistance that produces a visible spark.
In an electrical circuit, the battery current flows from the positive terminal of the battery, through the circuit components, and back to the negative terminal of the battery in a continuous loop.
A complete circuit is made up of a power source (such as a battery), a load (such as a lightbulb), and conductive material (such as wires) connecting the two. When these three elements are connected in a closed loop, electrons can flow through the circuit, allowing the load to receive electrical energy and operate.
An electric current needs a closed circuit, which provides a complete path for the flow of electrons. This circuit typically includes a power source, such as a battery or generator, connecting wires, and a load, such as a light bulb or motor, that utilizes the electricity. Without a closed circuit, electrons cannot flow continuously and no electric current is generated.