Difference between revisions of "Complex number"
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== Problems == | == Problems == | ||
+ | ===Introductory=== | ||
+ | *See [[:Category:Introductory Complex Numbers Problems]] | ||
+ | |||
===Intermediate=== | ===Intermediate=== | ||
*[[1984 AIME Problems/Problem 8|1984 AIME Problem 8]] | *[[1984 AIME Problems/Problem 8|1984 AIME Problem 8]] | ||
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*[[2004 AIME I Problems/Problem 13|2004 AIME I Problem 13]] | *[[2004 AIME I Problems/Problem 13|2004 AIME I Problem 13]] | ||
*[[2005 AIME II Problems/Problem 9|2005 AIME II Problem 9]] | *[[2005 AIME II Problems/Problem 9|2005 AIME II Problem 9]] | ||
+ | *See [[:Category:Intermediate Complex Numbers Problems]] | ||
+ | |||
+ | ===Olympiad=== | ||
+ | *See [[:Category:Olympiad Complex Numbers Problems]] | ||
== See also == | == See also == |
Revision as of 19:10, 25 November 2007
The complex numbers arise when we try to solve equations such as .
Contents
Derivation
We know (from the trivial inequality) that the square of a real number cannot be negative, so this equation has no solutions in the real numbers. However, it is possible to define a number, , such that . If we add this new number to the reals, we will have solutions to . It turns out that in the system that results from this addition, we are not only able to find the solutions of but we can now find all solutions to every polynomial. (See the Fundamental Theorem of Algebra for more details.)
Formal Definition
We are now ready for a more formal definition. A complex number is a number of the form where and is the imaginary unit. The set of complex numbers is denoted by . The set of complex numbers contains the set of the real numbers, since , but it is much larger.
Parts
Every complex number has a real part denoted or and an imaginary part denoted or . Note that the imaginary part of a complex number is real: for example, . So, if , we can write . ( and are traditionally used in place of and as variables when dealing with complex numbers, while and (and frequently also and ) are used to represent real values such as the real and imaginary parts of complex numbers. This mathematical convention is often broken when it is inconvenient, so be sure that you know what set variables are taken from when dealing with the complex numbers.)
As you can see, complex numbers enable us to remove the restriction of from the domain of the function (although some additional considerations are necessary).
Operations
- Addition
- Subtraction
- Multiplication
- Division
- Absolute value/Modulus/Magnitude (denoted by ). This is the distance from the origin to the complex number in the complex plane.
- Conjugation
- The argument function
Simple Example
If and ,
- ,
- ,
Topics
Problems
Introductory
Intermediate
- 1984 AIME Problem 8
- 1985 AIME Problem 3
- 1988 AIME Problem 11
- 1989 AIME Problem 14
- 1990 AIME Problem 10
- 1992 AIME Problem 10
- 1994 AIME Problem 8
- 1994 AIME Problem 13
- 1995 AIME Problem 5
- 1996 AIME Problem 11
- 1997 AIME Problem 11
- 1997 AIME Problem 14
- 1998 AIME Problem 13
- 1999 AIME Problem 9
- 2000 AIME II Problem 9
- 2002 AIME I Problem 12
- 2004 AIME I Problem 13
- 2005 AIME II Problem 9
- See Category:Intermediate Complex Numbers Problems