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CLEP General Mathematics: Complex Numbers

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1. Derives z = a+bi
Euler Formula
Roots of Unity
z - z*
-1

2. R?¹(cos? - isin?)
sin z
Polar Coordinates - z?¹
How to solve (2i+3)/(9-i)
Imaginary number

3. 2ib
z + z*
Euler Formula
z - z*
Polar Coordinates - Division

4. I
x-axis in the complex plane
Imaginary Numbers
v(-1)
cos z

5. All numbers
(cos? +isin?)n
Imaginary number
Complex Subtraction
complex

6. No i
real
complex
Complex Multiplication
natural

7. We see in this way that the distance between two points z and w in the complex plane is
|z-w|
the vector (a -b)
non-integers
you write the square root as the product of square roots and simplify: v(-a) = v(-1)v(a) = iv(a)

8. A complex number and its conjugate
z1 / z2
conjugate pairs
How to solve (2i+3)/(9-i)
Integers

9. V(zz*) = v(a² + b²)
|z-w|
a + bi for some real a and b.
radicals
|z| = mod(z)

10. (2i+3)/(9-i)for the denominator you multiply by the conjugate and what u do to the bottom u have to do to the top then you distribute the bottom then the top then add like terms then you simplify. 21i+25/17
Polar Coordinates - Multiplication
the complex numbers
How to solve (2i+3)/(9-i)
Polar Coordinates - cos?

11. All the powers of i can be written as
four different numbers: i - -i - 1 - and -1.
Roots of Unity
Complex Numbers: Add & subtract
can't get out of the complex numbers by adding (or subtracting) or multiplying two

12. ½(e^(iz) + e^(-iz))
i²
cos z
Every complex number has the 'Standard Form': a + bi for some real a and b.
imaginary

13. Has the opposite sign of a complex number; the conjugate of a + bi is a - bi
e^(ln z)
z1 / z2
conjugate
How to add and subtract complex numbers (2-3i)-(4+6i)

14. Cos n? + i sin n? (for all n integers)
Real and Imaginary Parts
(cos? +isin?)n
cosh²y - sinh²y
cos z

15. (a + bi)(c + bi) =
ac + bci + adi + bdi^2 =(ac - bc) + (bc + ad)i
z + z*
(a + bi) = (c + bi) = (a + c) + ( b + d)i
Euler's Formula

16. A+bi
the distance from z to the origin in the complex plane
Complex Number Formula
can't get out of the complex numbers by adding (or subtracting) or multiplying two
x-axis in the complex plane

17. 4th. Rule of Complex Arithmetic
(cos? +isin?)n
can't get out of the complex numbers by adding (or subtracting) or multiplying two
(a + bi) = (c + bi) = (a + c) + ( b + d)i
Real Numbers

18. A² + b² - real and non negative
transcendental
Complex Division
zz*
z1 ^ (z2)

19. If z= a+bi is a complex number and a and b are real - we say that a is the real part of z and that b is the imaginary part of z
Real and Imaginary Parts
standard form of complex numbers
z - z*
a real number: (a + bi)(a - bi) = a² + b²

20. 2nd. Rule of Complex Arithmetic

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21. A subset within a field.
Imaginary Unit
zz*
Subfield
rational

22. Like pi
subtracting complex numbers
conjugate
Every complex number has the 'Standard Form': a + bi for some real a and b.
transcendental

23. The modulus of the complex number z= a + ib now can be interpreted as
i^4
The Complex Numbers
Polar Coordinates - z?¹
the distance from z to the origin in the complex plane

24. The complex number z representing a+bi.
Affix
the distance from z to the origin in the complex plane
cos z
z1 ^ (z2)

25. Any set of elements that satisfies the field axioms for both addition and multiplication and is a commutative division algebra.
i^0
Field
De Moivre's Theorem
you write the square root as the product of square roots and simplify: v(-a) = v(-1)v(a) = iv(a)

26. A number that can be expressed as a fraction p/q where q is not equal to 0.
Rational Number
sin iy
standard form of complex numbers
How to find any Power

27. A + bi
standard form of complex numbers
i^4
Rules of Complex Arithmetic
Complex Addition

28. The square root of -1.
Imaginary Unit
Real Numbers
adding complex numbers
How to solve (2i+3)/(9-i)

29. Every complex number has the 'Standard Form':
Complex Division
natural
transcendental
a + bi for some real a and b.

30. For real a and b - a + bi =
i^4
conjugate
0 if and only if a = b = 0
imaginary

31. Where the curvature of the graph changes
Polar Coordinates - Multiplication by i
Polar Coordinates - Multiplication
radicals
point of inflection

32. Not on the numberline
Liouville's Theorem -
Square Root
non-integers
Complex Multiplication

33. E ^ (z2 ln z1)
z1 ^ (z2)
integers
Subfield
Imaginary Numbers

34. Multiply moduli and add arguments
sin iy
radicals
i^2
Polar Coordinates - Multiplication

35. 1st. Rule of Complex Arithmetic
e^(ln z)
(cos? +isin?)n
Absolute Value of a Complex Number
i^2 = -1

36. 3
i^3
sin z
ln z
Subfield

37. When you multiply two complex numbers a + bi and c + di FOIL the terms: (a + bi)(c + di) = (ac - bd) + (ad + bc)i
multiplying complex numbers
Complex Number Formula
Integers
Subfield

38. Ln(r e^(i?)) = ln r + i(? + 2pn) - for all integers n
non-integers
z - z*
ln z
Complex Conjugate

39. The product of an imaginary number and its conjugate is
i²
Polar Coordinates - sin?
a real number: (a + bi)(a - bi) = a² + b²
the distance from z to the origin in the complex plane

40. A + bi = z1 c + di = z2 - addition: z1 + z2 = (a + bi) + (c + di) = (a + c) + (b + d)i subtraction: z1 - z2 = (a - c) + (b - d)i
Every complex number has the 'Standard Form': a + bi for some real a and b.
the complex numbers
Complex Numbers: Add & subtract
zz*

41. I^2 =
point of inflection
-1
Polar Coordinates - Arg(z*)
How to multiply complex nubers(2+i)(2i-3)

42. 1
interchangeable
Polar Coordinates - r
Polar Coordinates - Division
i^0

43. 1
Polar Coordinates - cos?
i^2
Polar Coordinates - sin?
-1

44. Starts at 1 - does not include 0
the distance from z to the origin in the complex plane
Real Numbers
natural
Euler's Formula

45. zn = (cos? + isin?)n = cosn? + isinn? - For all integers n

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46. I = imaginary unit - i² = -1 or i = v-1
Imaginary Numbers
Complex Multiplication
i^3
Field

47. To prove that number field every algebraic equation in z with complex coefficients has a solution we need

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48. When two complex numbers are divided.
Complex Numbers: Add & subtract
Polar Coordinates - Division
Complex Division
Polar Coordinates - Multiplication

49. A complex number may be taken to the power of another complex number.
subtracting complex numbers
For real a and b - a + bi = 0 if and only if a = b = 0
Complex Exponentiation
i^1

50. (e^(-y) - e^(y)) / 2i = i sinh y
sin iy
How to add and subtract complex numbers (2-3i)-(4+6i)
De Moivre's Theorem
Liouville's Theorem -

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CLEP General Mathematics: Complex Numbers

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