A parallel circuit has more than one resistor (anything that uses electricity to do work) and gets its name from having multiple (parallel) paths to move along . Charges can move through any of several paths. If one of the items in the circuit is broken then no charge will move through that path, but other paths will continue to have charges flow through them. Parallel circuits are found in most household electrical wiring. This is done so that lights don't stop working just because you turned your TV off.
Below is an animation of a parallel circuit where electrical energy is shown as gravitational potential energy (GPE). The greater the change in height, the more energy is used or the more work is done.
In this animation you should notice the following things:
- More current flows through the smaller resistance. (More charges take the easiest path.)
- The battery or source is represented by an escalator which raises charges to a higher level of energy.
- As the charges move through the resistors (represented by the paddle wheels) they do work on the resistor and as a result, they lose electrical energy.
- By the time each charge makes it back to the battery, it has lost all the electrical energy given to it by the battery.
- The total of the potential drops ( - potential difference) of each "branch" or path is the same as the potential rise ( + potential difference) across the battery. This demonstrates that a charge can only do as much work as was done on it by the battery.
- The charges are positive so this is a representation of conventional current (the apparent flow of positive charges)
- The charges are only flowing in one direction so this would be considered direct current ( D.C. ).
- The potential drops of each branch equals the potential rise of the source.
- The total current is equal to the sum of the currents in the branches.
- The inverse of the total resistance of the circuit (also called effective resistance) is equal to the sum of the inverses of the individual resistances.
One important thing to notice from this last equation is that the more branches you add to a parallel circuit (the more things you plug in) the lower the total resistance becomes. Remember that as the total resistance decreases, the total current increases. So, the more things you plug in, the more current has to flow through the wiring in the wall. That's why plugging too many things in to one electrical outlet can create a real fire hazard.
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