Now you know that electric current flows through a path called a circuit. You also know ... that carry, or conduct, electrons more easily than other materials. ... insulators. Circuits deliver electrical energy to a load, or device, that will ... buzzers are common loads. Think about a light bulb. When current passes through the wires ...
An electric current will flow if there is a voltage, and a conducting path (usually a closed circuit is required).An electric current will flow if there is a voltage, and a conducting path (usually a closed circuit is required).An electric current will flow if there is a voltage, and a conducting path (usually a closed circuit is required).An electric current will flow if there is a voltage, and a conducting path (usually a closed circuit is required).
Refraction
You'll get the most current in the path of lowest electrical resistance, but be aware that any conducting path will allow a current to flow.
The path of least resistence
orbital
a short
You are probably referring to the path 'to' and 'from' the voltage-source's load but, in practise, this is considered to be a single path, or 'circuit'. It's necessary because, for current to flow, a potential difference must appear across that load.
An electric current will flow if there is a voltage, and a conducting path (usually a closed circuit is required).An electric current will flow if there is a voltage, and a conducting path (usually a closed circuit is required).An electric current will flow if there is a voltage, and a conducting path (usually a closed circuit is required).An electric current will flow if there is a voltage, and a conducting path (usually a closed circuit is required).
The electromagnet can be defined as a magnet created when electric current passes through a conducting medium. Whenever any charged particle moves it creates a magnetic field around its path of travel.
The first part is that you need a power source. The second thing is that you need a load. The third thing is that you need the power cables.
A circuit with a separate path for each load is a dedicated circuit. <<>> A circuit with a separate path for each load is a parallel circuit.
The conducting path is the cell that will be damaged during a short circuit. The reason for this that the conducting path will have a very low resistance and will allow for a large current to flow through the cell and damage it.
Path determilnation, metric convergenence and load balancing
No... not possible there is no any conducting path
We call this a "meteor shower", and it is caused by the Earth passing through the orbital path of an old decayed comet.
a circuit
to pride a load or parallel current path