The ampere
Current is a measure of the rate at which charge carriers flow. The standard unit is the
ampere. This represents one coulomb (6,240,000,000,000,000,000) of charge carriers
per second past a given point.
An ampere is a comparatively large amount of current. The abbreviation is A. Often,
current is specified in terms of milliamperes, abbreviated mA, where 1 mA = 0.001 A
or a thousandth of an ampere. You will also sometimes hear of microamperes (μA),
where 1 μA = 0.000001 A = 0. 001 mA, a millionth of an ampere. And it is increasingly
common to hear about nanoamperes (nA), where 1 nA = 0. 001 μA = 0.000000001 A (a
billionth of an ampere). Rarely will you hear of kiloamperes (kA), where 1 kA = 1000 A.
A current of a few milliamperes will give you a startling shock. About 50 mA will jolt
you severely, and 100 mA can cause death if it flows through your chest cavity.
An ordinary 100-watt light bulb draws about 1 A of current. An electric iron draws
approximately 10 A; an entire household normally uses between 10 A and 50 A,
depending on the size of the house and the kinds of appliances it has, and also on the
time of day, week or year.
The amount of current that will flow in an electrical circuit depends on the voltage,
and also on the resistance. There are some circuits in which extremely large currents,
say 1000 A, flow; this might happen through a metal bar placed directly at the output of
a massive electric generator. The resistance is extremely low in this case, and the generator
is capable of driving huge amounts of charge. In some semiconductor electronic
devices, such as microcomputers, a few nanoamperes will suffice for many complicated
processes. Some electronic clocks draw so little current that their batteries last as long
as they would if left on the shelf without being put to any use at all.
