Series and Parallel Circuits: Difference between revisions

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==Parallel circuits==
==Parallel circuits==
In a parallel circuit, the current can flow through each and every one of several parallel paths.


==External links==
==External links==

Revision as of 20:56, 25 February 2022

This page explains the difference between series and parallel circuits, why it matters, and the implications.

Summary

You have maybe heard of series and parallel circuits but not known what they are, or whether you even need to know. There are important differences in the way the voltage and current are distributed, which are helpful to understand.

Safety

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Series circuits

A series circuit is one where the current is forced to flow through one component after another, arranged in a line.

Often, for example, a number of LEDs will be connected in series. If a certain voltage (or electrical pressure) is needed to drive the required current though one LED, then it will take twice the voltage to drive it through two in series, or n times the voltage to drive it through n LEDs.

Older Christmas tree lights usually consisted of many low voltage filament bulbs in series. So a set of 80 lights might consist of 80 bulbs rated at 3V each, 80 x 3V being 240V, the standard mains voltage.

In the same way, you can connect batteries in series. For example, a 9V battery consists of 6 cells of 1.5V each. With each cell pushing behind the next, the voltages add up. Likewise, a 12V lead-acid car battery consists of 6 cells of 2V each. (But beware, if you mix cells of different types or different ages, when the weakest runs out, the others will continue to foce a current through it, and will very likely cause it damage, and possibly to leak.)

The relationship between the current through a LED or a filament bulb and the voltage isn't simple, and so let's think about resistors. In these, twice the voltage produces exactly twice the current. So if you connect two resistors in series across a battery, the total battery voltage will be divided between the two according to their resistances.

For example, if you connect a 100Ω and a 200Ω resistor in series across a 3V battery and measure the voltage across each resistor, you will find 2V across the 200Ω resistor, and 1V across the 100Ω resistor, totalling 3V.

Such an arrangement is therefore sometimes called a voltage divider. This is how the volume control in an older radio works. The audio signal is presented across the ends of a carbon track in the volume control, having a certain resistance, and usually arranged as ¾ of a circle centred on the volume control spindle. As you turn up the volume from zero, a contact moves progressively from the bottom of the track, where there is no voltage, to the top, where the full voltage of the audio signal is present. A third of the way up, it will tap off a third of the signal, and so on.

Parallel circuits

In a parallel circuit, the current can flow through each and every one of several parallel paths.

External links

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