Easiest way
The path of least resistance.
Electricity will always take the path of least resistance, usually the case is though a ground, if the wire becomes uninsulated you will see why it is very important to have equipment grounded (otherwise you could become the path of least resistance if you touch it)
When electricity takes a new path that is shorter than normal or in the electrical trade it is know as, current taking the path of least resistance, it is known as a short circuit.
The current path in an over current fault is the path of least resistance. Older electrical systems used to use the neutral wire for this purpose. It was found that on some occasions this was not the path of least resistance. Hence the installation of a ground wire being installed in cable sets. This innovation caused the whole grounding section in electrical code books to be rewritten. Now a specific ground wire is used to bring the fault current back to the distribution panel to trip the breaker and open the faulted circuit.
Electricity is lazy by nature & it will always find the path of least resistance. Many times this path is also the shortest distance path from a positive charge to a negative charge, but not necessarily, it must also be the least resistive path. Typically, a short circuit is a case where a piece of metal connects two points of different voltage potential together, thus bypassing the rest of the circuit and creating a "short" in the circuit.
Electricity flows along the path of least resistance due to Ohm's Law, which states that current will follow the path with the least resistance. This means that the flow of electricity is determined by the resistance of the material through which it is passing.
The path of least resistance.
Electricity will always take the path of least resistance. This means it will flow through the easiest route available, typically following conductive materials with lower resistance.
Lightning bolts are not straight because they are looking for the path of least resistance Lightning bolts want to find the path of least resistance so they can make it to the ground faster. Lightning bolts are zig-zag because they are finding the easiest path to the ground.
Path of Least Resistance.
Electricity follows the path of least resistance because resistance causes a loss of energy in the form of heat. This means that the path with lower resistance results in less energy loss and more efficient transmission of electricity.
Electricity and water are similar in that they both follow the path of least resistance. Just as water flows through the easiest route, electricity will also flow through the path that offers the least resistance.
electric current
Electricity does not always follow the path of least resistance. It can follow multiple paths, with some current flowing through higher resistance paths.
Electricity takes the path of least resistance because it follows the easiest route to flow through a circuit. This is due to the nature of electrical currents, which always seek the path with the least resistance to minimize energy loss and heat generation.
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.
Light and electricity follow the path of least resistance.