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A “complex number” is the sum of two parts: a real number by itself, and a real number multiplied by . It can therefore be written as , where and are real numbers.
The first part, , is referred to as the real part . The second part, , is referred to as the imaginary part .
Examples of complex numbers ( is the “real part”; is the “imaginary part”) | |
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, | |
, (no imaginary part: a “pure real number”) | |
, (no real part: a “pure imaginary number”) |
Some numbers are not obviously in the form . However, any number can be put in this form.
Example 1: Putting a fraction into form ( in the numerator) |
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is a valid complex number. But it is not in the form , and we cannot immediately see what the real and imaginary parts are. |
To see the parts, we rewrite it like this: |
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Why does that work? It’s just the ordinary rules of fractions, applied backward. (Try multiplying and then subtracting on the right to confirm this.) But now we have a form we can use: |
, |
So we see that fractions are very easy to break up, if the is in the numerator. An in the denominator is a bit trickier to deal with. |
Example 2: Putting a fraction into form ( in the denominator) | |
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Multiplying the top and bottom of a fraction by the same number never changes the value of the fraction: it just rewrites it in a different form. | |
Because is , or –1. | |
This is not a property of , but of –1. Similarly, . | |
: , | since we rewrote it as , or |
Finally, what if the denominator is a more complicated complex number? The trick in this case is similar to the trick we used for rationalizing the denominator: we multiply by a quantity known as the complex conjugate of the denominator .
Here is how we can use the “complex conjugate” to simplify a fraction.
Example: Using the Complex Conjugate to put a fraction into form | |
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The fraction: a complex number not currently in the form | |
Multiply the top and bottom by the complex conjugate of the denominator | |
Remember, | |
, which we are subtracting from 9 | |
Success! The top has , but the bottom doesn’t. This is easy to deal with. | |
Break the fraction up, just as we did in a previous example. | |
So we’re there! and |
Any number of any kind can be written as . The above examples show how to rewrite fractions in this form. In the text, you go through a worksheet designed to rewrite as three different complex numbers. Once you understand this exercise, you can rewrite other radicals, such as , in form.
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