If there is just one path for current to flow through what would it be?
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 path where current flows through.
A closed path through which a current can flow is called a circuit. Electric Circuit:)
"circuit"
Electric shock occurs when high voltage passes through a person's body, typically when they provide a path for the electrical current to flow, such as through their hand or foot. The severity of the shock depends on factors such as the amount of current and the path it takes through the body.
An electric current will always follow the path of least resistance, meaning it will flow through materials that offer the least opposition to the flow of electrons. This is determined by the conductivity and resistivity of the materials through which the current is passing.
A series circuit has only one path for an electric current to flow through. In a series circuit, all the components are connected in a line, so the current has to pass through each component in order to complete the circuit.
An electric circuit is a closed path through which current can pass. It typically consists of a power source (such as a battery), conductors (wires) that carry the current, and components (such as resistors, capacitors, and switches) that manipulate the flow of electricity.
provides just one path for current flow
In a circuit, current prefers to flow through paths with lower resistance according to Ohm's Law (I = V/R). However, if there are multiple parallel paths, the current will split, and the path with the highest resistance will have the least current flowing through it. Therefore, while current does not travel along the path with the highest resistance, it will still exist in that path, albeit in a minimal amount compared to lower-resistance paths.
Current through that part of the circuit will stop.
Potential Source connected across a Closed Circuit Path.