A simple example, and it basically relates to buildings, is in Christmas lights strewn on the Christmas tree. If your Christmas lights are in series, if one bulb becomes duff, all the other bulbs also go out. So which bulb is duff (dead)? By testing each bulb you will eventually find the duff bulb and replace it.
If the Christmas lights had been parallel, one duff bulb would not affect the other bulbs. It would be very apparent that the only dud bulb (not lit) in the parallel circuit needed to be replaced.
There are two reasons.
The first, and more important, is that, with parallel circuits, the supply voltage appears across every load -i.e. each load is subject to exactly the same voltage. If loads were connected in series, then the voltage appearing across each load would be proportional to their resistance or impedance, and that value would be anyone's guess! If the loads were, say, lamps, then they would all operate at different brightnesses.
The second reason is that if loads were connected in series then, if one load became open circuited, then ALL the loads would become disconnected and cease to work.
So all devices get the same voltage. Circuits can be switched on and off independently of each other. If a device, e.g.light, fails no other circuits are lost.
Series and parallelImproved AnswerThere are four categories of circuit: series, parallel, series-parallel, and complex. 'Complex' is a 'catch-all', used to describe circuits that are not series, parallel, or series-parallel. An example of a 'complex' circuit is a Wheatstone Bridge circuit.
It was mentioned that there are two different ways to connect two or more electrical devices together in a circuit. They can be connected by means of series connections or by means of parallel connections. When all the devices in a circuit are connected by series connections, then the circuit is referred to as a series circuit. When all the devices in a circuit are connected by parallel connections, then the circuit is referred to as a parallel circuit. A third type of circuit involves the dual use of series and parallel connections in a circuit; such circuits are referred to as compound circuits or combination circuits. The circuit depicted at the right is an example of the use of both series and parallel connections within the same circuit. In this case, light bulbs A and B are connected by parallel connections and light bulbs C and D are connected by series connections. This is an example of a combination circuitBy EngineerMuhammad Zaheer Meer GMS
D. The total resistance is equal to the lowest resistance in the circuit
The current through each resistor is equal to the voltage across it divided by its resistance for series and parallel circuits.
traditionit is often used (like a storage tank for water is) to store resonant energy in AC circuits.
Electrical wiring for buildings is always done in parallel circuits.
parallel circuit - a closed circuit in which the current divides into two or more paths.The circuits in a parallel circuits there are two or more circuits.
It is in parallel, so one light can be on while others are turned off.
Using a parallel circuit energy can be transferred through a parallel circuit.
A parallel circuit.
Both series and parallel circuits are used What_types_of_circuits_are_used_in_homes. If the circuit is a dedicated circuit which means that there is only one device in the circuit, then it is a series circuit. All the rest will be classed as parallel circuits.
in bedrooms we have parallel circuit.
Series circuit Parallel circuit Tank circuit
the term voltage is constant in parallel circuits
there are 2Series circuits and parallel circuitsFurther AnswerThere are, in fact, four categories of circuit: series, parallel, series-parallel, and complex. 'Complex' includes any circuit that's not one of the other three.Series and Parallel
'Non-examples' of a parallel circuit include seriescircuits, series-parallel circuits, and complexcircuits.
A parallel circuit is a circuit that takes both legs to make a load.