?
A symbol thrust upon earthlings by an alien culture? Well, not quite...
(unless you view mathematics as representative of an alien culture... but we
won't go there).Imaginary Numbers
What is
?
A symbol thrust upon earthlings by an alien culture? Well, not quite...
(unless you view mathematics as representative of an alien culture... but we
won't go there).
The "usual" numbers "normal" people work with are called real numbers. They include whole numbers, fractions, decimals, negative numbers, square roots of positive numbers, and numbers like pi (3.14159265...). They include basically anything that a calculator will turn into a decimal, or anything that has a position on the number line.
But
does not have a position on the number line. There is no number we can
square to get negative one. Squaring a positive number always produces a
positive number, and squaring a negative number also always produces a positive
number. So how do we square a number to get a negative one?
Answer: We can't use a real number for
.
We must use a different kind of number. The sixteenth century
mathematicians who first seriously worked with
weren't sure what its significance was, so they called it an imaginary number, a
very unfortunate term. In fact, there is nothing imaginary about
.
(But it did take two centuries before mathematicians generally understood its
significance.)
Today, we often use the symbol i to represent
.
Mathematicians usually use one of two statements as the definition of i,
either
or
.
(Some electrical engineers will use j instead of i, because they
use i to represent inductive force, alias current. But the idea is
the same.)
We don't need any other definitions for square roots of other
numbers, having i is enough. For instance, we can write
,
since the square root of 9 is 3, and the square root of a negative number will
produce the number i.
Classifying the New Types of Numbers
The collection of numbers created by taking
square roots of the negative numbers are sometimes called the pure
imaginary numbers. In symbols, we might write a generic pure
imaginary number as
,
the product of a nonzero real number b with the imaginary number i.
None of the pure imaginary numbers have a position on the number line.
We can also talk about adding a real number with a pure
imaginary number. The result is called a complex
number. In symbols, complex numbers are numbers of the form
,
where a is a real number, and
is a pure imaginary number.
If these numbers aren't on the number line, can we draw pictures
of complex or imaginary numbers? Actually, yes. But a
one-dimensional number line will not sufficient. The pure imaginary part
of the complex number needs to be represented on a second number line. In
other words, we need a two-dimensional picture to represent complex
numbers. Here is a picture of the number
,
represented by a point.
So the real numbers are points on the horizontal axis. Imaginary numbers are those numbers which are not real, and are located somewhere other than the horizontal axis. Pure imaginary numbers are points on the vertical axis (other than the origin). Complex numbers include all possible points in the picture. (Real numbers are complex numbers. So are imaginary numbers. Just like a whole number is also a fraction.)
Epilogue
Couldn't this go on forever? What about
,
for instance? Won't we need a j, or some other invention (er,
dimension)? Well..., you can take everything to extremes, but we won't
need to. It turns out that the Square Root of i
is another complex number. We won't need a j. We won't need a
third dimension for
.