A path through which current flows is generally called a circuit. Some might say a complete circuit to denote a "closed loop" through which electricity can leave one electrode or contact on a voltage source, travel through some conductors of some kind, and then return to the other electrode or contact on the source.
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A parallel circuit is one in which there is more than one current path. An example might be several light bulbs in a house, all of which provide a path for electric current. The advantage is that any of the lamps can be turned on or off without affecting the current flow through any other lamp. A series circuit is one in which the current has only a single path through multiple components. An example might be two resistors, one after the other. Both will have the same current through them but they may have varying voltages depending on their resistance. Another example of a series circuit is a houehold lamp and a light switch. When the light switch is open, no current flows through it and therefore, no current can flow through the lamp either. When the switch is closed, current will now flow through the switch and the lamp.
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This proves that a magnetic field is developed around the conductor wen current flows through it...
complex circuit
The path where current flows through.
"circuit"
No, current does not flow through a circuit by taking the path of least resistance. Instead, current flows through all available paths in a circuit, with the amount of current in each path determined by the resistance of that path.
The complete path that an electric current flows through is called an electric circuit. It includes components like wires, switches, and resistors that allow the flow of electricity in a closed loop.
The path through which a current flows is called a circuita electrical line that voltage runs through
In a series connection, the current flows through each component in a single path, while in a parallel connection, the current splits and flows through multiple paths.
In a series circuit, there is only one path for the current to flow. The current flows through each component in sequence, meaning that if one component fails or is removed, the entire circuit is interrupted.
Electricity flows along a path in the form of electrons moving through a conductor, such as a wire. This movement of electrons creates an electric current that carries energy from one point to another. The type of electricity that flows along a path is typically called electric current.
"circuit"
Earthing current flows through the earth to provide a safe path for electrical faults to return to the ground. This helps stabilize the electrical system and prevents the risk of electric shocks or fires by ensuring excess current does not flow through people or equipment.
A two-path circuit.
The current of electricity flows well with conductors. So by placing an insulator in the path of the electricity you can stop the current.