multiplying complex numbers/demoivre's theoremweim0024/pdf/47 - demoivre... · roots of...
TRANSCRIPT
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Multiplying Complex Numbers/DeMoivre’sTheorem
University of Minnesota Multiplying Complex Numbers/DeMoivre’s Theorem
![Page 2: Multiplying Complex Numbers/DeMoivre's Theoremweim0024/pdf/47 - DeMoivre... · Roots of Complex Numbers in Polar Form Find the three cube roots of 8i = 8 cis 270 DeMoivre’s Theorem:](https://reader034.vdocuments.mx/reader034/viewer/2022042710/5f5880a526fd310f9746840c/html5/thumbnails/2.jpg)
Preliminaries and Objectives
Preliminaries• Arithmetic of Complex Numbers• Multiplying by the conjugate to rationalize the denominator• Converting vectors between rectangular form and polar
form
Objectives• Multiply and divide complex numbers in polar form• Raise a complex number to a power• Find the roots of a complex number
University of Minnesota Multiplying Complex Numbers/DeMoivre’s Theorem
![Page 3: Multiplying Complex Numbers/DeMoivre's Theoremweim0024/pdf/47 - DeMoivre... · Roots of Complex Numbers in Polar Form Find the three cube roots of 8i = 8 cis 270 DeMoivre’s Theorem:](https://reader034.vdocuments.mx/reader034/viewer/2022042710/5f5880a526fd310f9746840c/html5/thumbnails/3.jpg)
Complex Numbers
To the real numbers, add a new number called i , with theproperty i2 = −1. In other words, i =
√−1
University of Minnesota Multiplying Complex Numbers/DeMoivre’s Theorem
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Complex Numbers
We now get the set of complex numbers a + bi where a and bare real numbers. If z = a + bi is a complex number, we call athe real part and bi the imaginary part.
University of Minnesota Multiplying Complex Numbers/DeMoivre’s Theorem
![Page 5: Multiplying Complex Numbers/DeMoivre's Theoremweim0024/pdf/47 - DeMoivre... · Roots of Complex Numbers in Polar Form Find the three cube roots of 8i = 8 cis 270 DeMoivre’s Theorem:](https://reader034.vdocuments.mx/reader034/viewer/2022042710/5f5880a526fd310f9746840c/html5/thumbnails/5.jpg)
Complex Numbers
Operations on Complex Numbers
Addition: (a + bi) + (c + di) = (a + c) + (b + d)i
Subtraction: (a + bi)− (c + di) = (a− c) + (b − d)i
Multiplication:(a+bi)(c +di) = ac +adi +bci +bdi2 = (ac−bd)+ (ad +bc)i
Division:(a + bi)(c + di)
= ???
University of Minnesota Multiplying Complex Numbers/DeMoivre’s Theorem
![Page 6: Multiplying Complex Numbers/DeMoivre's Theoremweim0024/pdf/47 - DeMoivre... · Roots of Complex Numbers in Polar Form Find the three cube roots of 8i = 8 cis 270 DeMoivre’s Theorem:](https://reader034.vdocuments.mx/reader034/viewer/2022042710/5f5880a526fd310f9746840c/html5/thumbnails/6.jpg)
Complex Multilplication
(3 + 8i)(6− 5i) = 18− 15i + 48i − 40i2 =
(18 + 40) + (−15 + 48)i = 58 + 33i
University of Minnesota Multiplying Complex Numbers/DeMoivre’s Theorem
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Polar Form of Complex Numbers
x + yi = r cos θ + r sin θi
University of Minnesota Multiplying Complex Numbers/DeMoivre’s Theorem
![Page 8: Multiplying Complex Numbers/DeMoivre's Theoremweim0024/pdf/47 - DeMoivre... · Roots of Complex Numbers in Polar Form Find the three cube roots of 8i = 8 cis 270 DeMoivre’s Theorem:](https://reader034.vdocuments.mx/reader034/viewer/2022042710/5f5880a526fd310f9746840c/html5/thumbnails/8.jpg)
Polar Form of Complex Numbers
x + yi = r cos θ + r sin θi = r(cos θ + i sin θ) = r cis θ
University of Minnesota Multiplying Complex Numbers/DeMoivre’s Theorem
![Page 9: Multiplying Complex Numbers/DeMoivre's Theoremweim0024/pdf/47 - DeMoivre... · Roots of Complex Numbers in Polar Form Find the three cube roots of 8i = 8 cis 270 DeMoivre’s Theorem:](https://reader034.vdocuments.mx/reader034/viewer/2022042710/5f5880a526fd310f9746840c/html5/thumbnails/9.jpg)
Example
−3− 4i = 5 cis 233.1◦
sincer =
√32 + 42 = 5
andtan θ =
−4−3
with θ in the third quadrant.
University of Minnesota Multiplying Complex Numbers/DeMoivre’s Theorem
![Page 10: Multiplying Complex Numbers/DeMoivre's Theoremweim0024/pdf/47 - DeMoivre... · Roots of Complex Numbers in Polar Form Find the three cube roots of 8i = 8 cis 270 DeMoivre’s Theorem:](https://reader034.vdocuments.mx/reader034/viewer/2022042710/5f5880a526fd310f9746840c/html5/thumbnails/10.jpg)
Multiplication of Complex Numbers in Polar Form
[r1(cos θ1 + i sin θ1)][r2(cos θ2 + i sin θ2)] =
r1r2(cos θ1 + i sin θ1)(cos θ2 + i sin θ2) =
r1r2(cos θ1 cos θ2+cos θ1i sin θ2+i sin θ1 cos θ2+i sin θ1i sin θ2) =
r1r2[(cos θ1 cos θ2 − sin θ1 sin θ2)+i(sin θ1 cos θ2 + cos θ1 sin θ2)] =
r1r2[cos(θ1 + θ2) + i sin(θ1 + θ2)] = r1r2 cis (θ1 + θ2)
University of Minnesota Multiplying Complex Numbers/DeMoivre’s Theorem
![Page 11: Multiplying Complex Numbers/DeMoivre's Theoremweim0024/pdf/47 - DeMoivre... · Roots of Complex Numbers in Polar Form Find the three cube roots of 8i = 8 cis 270 DeMoivre’s Theorem:](https://reader034.vdocuments.mx/reader034/viewer/2022042710/5f5880a526fd310f9746840c/html5/thumbnails/11.jpg)
Multiplication of Complex Numbers in Polar Form
[r1(cos θ1 + i sin θ1)][r2(cos θ2 + i sin θ2)] =
r1r2(cos θ1 + i sin θ1)(cos θ2 + i sin θ2) =
r1r2(cos θ1 cos θ2+cos θ1i sin θ2+i sin θ1 cos θ2+i sin θ1i sin θ2) =
r1r2[(cos θ1 cos θ2 − sin θ1 sin θ2)+i(sin θ1 cos θ2 + cos θ1 sin θ2)] =
r1r2[cos(θ1 + θ2) + i sin(θ1 + θ2)] = r1r2 cis (θ1 + θ2)
University of Minnesota Multiplying Complex Numbers/DeMoivre’s Theorem
![Page 12: Multiplying Complex Numbers/DeMoivre's Theoremweim0024/pdf/47 - DeMoivre... · Roots of Complex Numbers in Polar Form Find the three cube roots of 8i = 8 cis 270 DeMoivre’s Theorem:](https://reader034.vdocuments.mx/reader034/viewer/2022042710/5f5880a526fd310f9746840c/html5/thumbnails/12.jpg)
Multiplication of Complex Numbers in Polar Form
[r1(cos θ1 + i sin θ1)][r2(cos θ2 + i sin θ2)] =
r1r2(cos θ1 + i sin θ1)(cos θ2 + i sin θ2) =
r1r2(cos θ1 cos θ2+cos θ1i sin θ2+i sin θ1 cos θ2+i sin θ1i sin θ2) =
r1r2[(cos θ1 cos θ2 − sin θ1 sin θ2)+i(sin θ1 cos θ2 + cos θ1 sin θ2)] =
r1r2[cos(θ1 + θ2) + i sin(θ1 + θ2)] = r1r2 cis (θ1 + θ2)
University of Minnesota Multiplying Complex Numbers/DeMoivre’s Theorem
![Page 13: Multiplying Complex Numbers/DeMoivre's Theoremweim0024/pdf/47 - DeMoivre... · Roots of Complex Numbers in Polar Form Find the three cube roots of 8i = 8 cis 270 DeMoivre’s Theorem:](https://reader034.vdocuments.mx/reader034/viewer/2022042710/5f5880a526fd310f9746840c/html5/thumbnails/13.jpg)
Multiplication of Complex Numbers in Polar Form
[r1(cos θ1 + i sin θ1)][r2(cos θ2 + i sin θ2)] =
r1r2(cos θ1 + i sin θ1)(cos θ2 + i sin θ2) =
r1r2(cos θ1 cos θ2+cos θ1i sin θ2+i sin θ1 cos θ2+i sin θ1i sin θ2) =
r1r2[(cos θ1 cos θ2 − sin θ1 sin θ2)+i(sin θ1 cos θ2 + cos θ1 sin θ2)] =
r1r2[cos(θ1 + θ2) + i sin(θ1 + θ2)] = r1r2 cis (θ1 + θ2)
University of Minnesota Multiplying Complex Numbers/DeMoivre’s Theorem
![Page 14: Multiplying Complex Numbers/DeMoivre's Theoremweim0024/pdf/47 - DeMoivre... · Roots of Complex Numbers in Polar Form Find the three cube roots of 8i = 8 cis 270 DeMoivre’s Theorem:](https://reader034.vdocuments.mx/reader034/viewer/2022042710/5f5880a526fd310f9746840c/html5/thumbnails/14.jpg)
Multiplication of Complex Numbers in Polar Form
[r1(cos θ1 + i sin θ1)][r2(cos θ2 + i sin θ2)] =
r1r2(cos θ1 + i sin θ1)(cos θ2 + i sin θ2) =
r1r2(cos θ1 cos θ2+cos θ1i sin θ2+i sin θ1 cos θ2+i sin θ1i sin θ2) =
r1r2[(cos θ1 cos θ2 − sin θ1 sin θ2)+i(sin θ1 cos θ2 + cos θ1 sin θ2)] =
r1r2[cos(θ1 + θ2) + i sin(θ1 + θ2)] = r1r2 cis (θ1 + θ2)
University of Minnesota Multiplying Complex Numbers/DeMoivre’s Theorem
![Page 15: Multiplying Complex Numbers/DeMoivre's Theoremweim0024/pdf/47 - DeMoivre... · Roots of Complex Numbers in Polar Form Find the three cube roots of 8i = 8 cis 270 DeMoivre’s Theorem:](https://reader034.vdocuments.mx/reader034/viewer/2022042710/5f5880a526fd310f9746840c/html5/thumbnails/15.jpg)
Multiplication of Complex Numbers in Polar Form
[r1 cis θ1][r2 cis θ2] = r1r2 cis (θ1 + θ2)
To multiply complex numbers in polar form, multiply the lengthsand add the angles.
University of Minnesota Multiplying Complex Numbers/DeMoivre’s Theorem
![Page 16: Multiplying Complex Numbers/DeMoivre's Theoremweim0024/pdf/47 - DeMoivre... · Roots of Complex Numbers in Polar Form Find the three cube roots of 8i = 8 cis 270 DeMoivre’s Theorem:](https://reader034.vdocuments.mx/reader034/viewer/2022042710/5f5880a526fd310f9746840c/html5/thumbnails/16.jpg)
Division of Complex Numbers in Polar Form
3− 4i5 + 2i
(3− 4i)(5 + 2i)
(5− 2i)(5− 2i)
=15− 8− 20i − 6i
25 + 4=
7− 26i29
729− 26
29i
University of Minnesota Multiplying Complex Numbers/DeMoivre’s Theorem
![Page 17: Multiplying Complex Numbers/DeMoivre's Theoremweim0024/pdf/47 - DeMoivre... · Roots of Complex Numbers in Polar Form Find the three cube roots of 8i = 8 cis 270 DeMoivre’s Theorem:](https://reader034.vdocuments.mx/reader034/viewer/2022042710/5f5880a526fd310f9746840c/html5/thumbnails/17.jpg)
Division of Complex Numbers in Polar Form
3− 4i5 + 2i
(3− 4i)(5 + 2i)
(5− 2i)(5− 2i)
=15− 8− 20i − 6i
25 + 4=
7− 26i29
729− 26
29i
University of Minnesota Multiplying Complex Numbers/DeMoivre’s Theorem
![Page 18: Multiplying Complex Numbers/DeMoivre's Theoremweim0024/pdf/47 - DeMoivre... · Roots of Complex Numbers in Polar Form Find the three cube roots of 8i = 8 cis 270 DeMoivre’s Theorem:](https://reader034.vdocuments.mx/reader034/viewer/2022042710/5f5880a526fd310f9746840c/html5/thumbnails/18.jpg)
Division of Complex Numbers in Polar Form
3− 4i5 + 2i
(3− 4i)(5 + 2i)
(5− 2i)(5− 2i)
=15− 8− 20i − 6i
25 + 4=
7− 26i29
729− 26
29i
University of Minnesota Multiplying Complex Numbers/DeMoivre’s Theorem
![Page 19: Multiplying Complex Numbers/DeMoivre's Theoremweim0024/pdf/47 - DeMoivre... · Roots of Complex Numbers in Polar Form Find the three cube roots of 8i = 8 cis 270 DeMoivre’s Theorem:](https://reader034.vdocuments.mx/reader034/viewer/2022042710/5f5880a526fd310f9746840c/html5/thumbnails/19.jpg)
Division of Complex Numbers in Polar Form
r1(cos θ1 + i sin θ1)
r2(cos θ2 + i sin θ2)
=r1(cos θ1 + i sin θ1)
r2(cos θ2 + i sin θ2)
(cos θ2 − i sin θ2)
(cos θ2 − i sin θ2)
=r1[(cos θ1 cos θ2 + sin θ1 sin θ2) + i(sin θ1 cos θ2 − cos θ1 sin θ2)]
r2(cos2 θ2 + sin2 θ2)
=r1
r2(cos(θ1 − θ2) + i sin(θ1 − θ2))
University of Minnesota Multiplying Complex Numbers/DeMoivre’s Theorem
![Page 20: Multiplying Complex Numbers/DeMoivre's Theoremweim0024/pdf/47 - DeMoivre... · Roots of Complex Numbers in Polar Form Find the three cube roots of 8i = 8 cis 270 DeMoivre’s Theorem:](https://reader034.vdocuments.mx/reader034/viewer/2022042710/5f5880a526fd310f9746840c/html5/thumbnails/20.jpg)
Division of Complex Numbers in Polar Form
r1(cos θ1 + i sin θ1)
r2(cos θ2 + i sin θ2)
=r1(cos θ1 + i sin θ1)
r2(cos θ2 + i sin θ2)
(cos θ2 − i sin θ2)
(cos θ2 − i sin θ2)
=r1[(cos θ1 cos θ2 + sin θ1 sin θ2) + i(sin θ1 cos θ2 − cos θ1 sin θ2)]
r2(cos2 θ2 + sin2 θ2)
=r1
r2(cos(θ1 − θ2) + i sin(θ1 − θ2))
University of Minnesota Multiplying Complex Numbers/DeMoivre’s Theorem
![Page 21: Multiplying Complex Numbers/DeMoivre's Theoremweim0024/pdf/47 - DeMoivre... · Roots of Complex Numbers in Polar Form Find the three cube roots of 8i = 8 cis 270 DeMoivre’s Theorem:](https://reader034.vdocuments.mx/reader034/viewer/2022042710/5f5880a526fd310f9746840c/html5/thumbnails/21.jpg)
Division of Complex Numbers in Polar Form
r1(cos θ1 + i sin θ1)
r2(cos θ2 + i sin θ2)
=r1(cos θ1 + i sin θ1)
r2(cos θ2 + i sin θ2)
(cos θ2 − i sin θ2)
(cos θ2 − i sin θ2)
=r1[(cos θ1 cos θ2 + sin θ1 sin θ2) + i(sin θ1 cos θ2 − cos θ1 sin θ2)]
r2(cos2 θ2 + sin2 θ2)
=r1
r2(cos(θ1 − θ2) + i sin(θ1 − θ2))
University of Minnesota Multiplying Complex Numbers/DeMoivre’s Theorem
![Page 22: Multiplying Complex Numbers/DeMoivre's Theoremweim0024/pdf/47 - DeMoivre... · Roots of Complex Numbers in Polar Form Find the three cube roots of 8i = 8 cis 270 DeMoivre’s Theorem:](https://reader034.vdocuments.mx/reader034/viewer/2022042710/5f5880a526fd310f9746840c/html5/thumbnails/22.jpg)
Division of Complex Numbers in Polar Form
r1(cos θ1 + i sin θ1)
r2(cos θ2 + i sin θ2)
=r1(cos θ1 + i sin θ1)
r2(cos θ2 + i sin θ2)
(cos θ2 − i sin θ2)
(cos θ2 − i sin θ2)
=r1[(cos θ1 cos θ2 + sin θ1 sin θ2) + i(sin θ1 cos θ2 − cos θ1 sin θ2)]
r2(cos2 θ2 + sin2 θ2)
=r1
r2(cos(θ1 − θ2) + i sin(θ1 − θ2))
University of Minnesota Multiplying Complex Numbers/DeMoivre’s Theorem
![Page 23: Multiplying Complex Numbers/DeMoivre's Theoremweim0024/pdf/47 - DeMoivre... · Roots of Complex Numbers in Polar Form Find the three cube roots of 8i = 8 cis 270 DeMoivre’s Theorem:](https://reader034.vdocuments.mx/reader034/viewer/2022042710/5f5880a526fd310f9746840c/html5/thumbnails/23.jpg)
Division of Complex Numbers in Polar Form
r1 cis θ1
r2 cis θ2=
r1
r2cis (θ1 − θ2)
To divide complex numbers in polar form, divide the lengthsand subtract the angles.
University of Minnesota Multiplying Complex Numbers/DeMoivre’s Theorem
![Page 24: Multiplying Complex Numbers/DeMoivre's Theoremweim0024/pdf/47 - DeMoivre... · Roots of Complex Numbers in Polar Form Find the three cube roots of 8i = 8 cis 270 DeMoivre’s Theorem:](https://reader034.vdocuments.mx/reader034/viewer/2022042710/5f5880a526fd310f9746840c/html5/thumbnails/24.jpg)
Powers of Complex Numbers in Polar Form
(√2
2+
√2
2i
)4
= (1 cis 45◦)4
= 14 cis 180◦
= −1 + 0i = −1
University of Minnesota Multiplying Complex Numbers/DeMoivre’s Theorem
![Page 25: Multiplying Complex Numbers/DeMoivre's Theoremweim0024/pdf/47 - DeMoivre... · Roots of Complex Numbers in Polar Form Find the three cube roots of 8i = 8 cis 270 DeMoivre’s Theorem:](https://reader034.vdocuments.mx/reader034/viewer/2022042710/5f5880a526fd310f9746840c/html5/thumbnails/25.jpg)
Powers of Complex Numbers in Polar Form
(√2
2+
√2
2i
)4
(√2
2+
√2
2i
)(√2
2+
√2
2i
)(√2
2+
√2
2i
)(√2
2+
√2
2i
)
= (1 cis 45◦)4
= 14 cis 180◦
= −1 + 0i = −1
University of Minnesota Multiplying Complex Numbers/DeMoivre’s Theorem
![Page 26: Multiplying Complex Numbers/DeMoivre's Theoremweim0024/pdf/47 - DeMoivre... · Roots of Complex Numbers in Polar Form Find the three cube roots of 8i = 8 cis 270 DeMoivre’s Theorem:](https://reader034.vdocuments.mx/reader034/viewer/2022042710/5f5880a526fd310f9746840c/html5/thumbnails/26.jpg)
Powers of Complex Numbers in Polar Form
(√2
2+
√2
2i
)4
To raise a complex number to a power, raise the length to thepower, and multiply the angle by the power.
= (1 cis 45◦)4
= 14 cis 180◦
= −1 + 0i = −1
University of Minnesota Multiplying Complex Numbers/DeMoivre’s Theorem
![Page 27: Multiplying Complex Numbers/DeMoivre's Theoremweim0024/pdf/47 - DeMoivre... · Roots of Complex Numbers in Polar Form Find the three cube roots of 8i = 8 cis 270 DeMoivre’s Theorem:](https://reader034.vdocuments.mx/reader034/viewer/2022042710/5f5880a526fd310f9746840c/html5/thumbnails/27.jpg)
Powers of Complex Numbers in Polar Form
(√2
2+
√2
2i
)4
= (1 cis 45◦)4
= 14 cis 180◦
= −1 + 0i = −1
University of Minnesota Multiplying Complex Numbers/DeMoivre’s Theorem
![Page 28: Multiplying Complex Numbers/DeMoivre's Theoremweim0024/pdf/47 - DeMoivre... · Roots of Complex Numbers in Polar Form Find the three cube roots of 8i = 8 cis 270 DeMoivre’s Theorem:](https://reader034.vdocuments.mx/reader034/viewer/2022042710/5f5880a526fd310f9746840c/html5/thumbnails/28.jpg)
Powers of Complex Numbers in Polar Form
(√2
2+
√2
2i
)4
= (1 cis 45◦)4
= 14 cis 180◦
= −1 + 0i = −1
University of Minnesota Multiplying Complex Numbers/DeMoivre’s Theorem
![Page 29: Multiplying Complex Numbers/DeMoivre's Theoremweim0024/pdf/47 - DeMoivre... · Roots of Complex Numbers in Polar Form Find the three cube roots of 8i = 8 cis 270 DeMoivre’s Theorem:](https://reader034.vdocuments.mx/reader034/viewer/2022042710/5f5880a526fd310f9746840c/html5/thumbnails/29.jpg)
Powers of Complex Numbers in Polar Form
(√2
2+
√2
2i
)4
= (1 cis 45◦)4
= 14 cis 180◦
= −1 + 0i = −1
University of Minnesota Multiplying Complex Numbers/DeMoivre’s Theorem
![Page 30: Multiplying Complex Numbers/DeMoivre's Theoremweim0024/pdf/47 - DeMoivre... · Roots of Complex Numbers in Polar Form Find the three cube roots of 8i = 8 cis 270 DeMoivre’s Theorem:](https://reader034.vdocuments.mx/reader034/viewer/2022042710/5f5880a526fd310f9746840c/html5/thumbnails/30.jpg)
Roots of Complex Numbers in Polar Form
Find the three cube roots of −8i = 8 cis 270◦
DeMoivre’s Theorem: To find the roots of a complex number,take the root of the length, and divide the angle by the root.
Note: Since you will be dividing by 3, to find all answersbetween 0◦ and 360◦, we will want to begin with initial anglesfor three full circles.
University of Minnesota Multiplying Complex Numbers/DeMoivre’s Theorem
![Page 31: Multiplying Complex Numbers/DeMoivre's Theoremweim0024/pdf/47 - DeMoivre... · Roots of Complex Numbers in Polar Form Find the three cube roots of 8i = 8 cis 270 DeMoivre’s Theorem:](https://reader034.vdocuments.mx/reader034/viewer/2022042710/5f5880a526fd310f9746840c/html5/thumbnails/31.jpg)
Roots of Complex Numbers in Polar Form
Find the three cube roots of −8i = 8 cis 270◦
DeMoivre’s Theorem: To find the roots of a complex number,take the root of the length, and divide the angle by the root.
Note: Since you will be dividing by 3, to find all answersbetween 0◦ and 360◦, we will want to begin with initial anglesfor three full circles.
University of Minnesota Multiplying Complex Numbers/DeMoivre’s Theorem
![Page 32: Multiplying Complex Numbers/DeMoivre's Theoremweim0024/pdf/47 - DeMoivre... · Roots of Complex Numbers in Polar Form Find the three cube roots of 8i = 8 cis 270 DeMoivre’s Theorem:](https://reader034.vdocuments.mx/reader034/viewer/2022042710/5f5880a526fd310f9746840c/html5/thumbnails/32.jpg)
Roots of Complex Numbers in Polar Form
Find the three cube roots of −8i = 8 cis 270◦
DeMoivre’s Theorem: To find the roots of a complex number,take the root of the length, and divide the angle by the root.
Note: Since you will be dividing by 3, to find all answersbetween 0◦ and 360◦, we will want to begin with initial anglesfor three full circles.
University of Minnesota Multiplying Complex Numbers/DeMoivre’s Theorem
![Page 33: Multiplying Complex Numbers/DeMoivre's Theoremweim0024/pdf/47 - DeMoivre... · Roots of Complex Numbers in Polar Form Find the three cube roots of 8i = 8 cis 270 DeMoivre’s Theorem:](https://reader034.vdocuments.mx/reader034/viewer/2022042710/5f5880a526fd310f9746840c/html5/thumbnails/33.jpg)
Roots of Complex Numbers in Polar Form
Find the three cube roots of−8i = 8 cis 270◦ = 8 cis 630◦ = 8 cis 990◦
Solution: {2 cis 90◦,2 cis 210◦,2 cis 330◦}
= {2i ,−√
3− i ,√
3− i}
University of Minnesota Multiplying Complex Numbers/DeMoivre’s Theorem
![Page 34: Multiplying Complex Numbers/DeMoivre's Theoremweim0024/pdf/47 - DeMoivre... · Roots of Complex Numbers in Polar Form Find the three cube roots of 8i = 8 cis 270 DeMoivre’s Theorem:](https://reader034.vdocuments.mx/reader034/viewer/2022042710/5f5880a526fd310f9746840c/html5/thumbnails/34.jpg)
Roots of Complex Numbers in Polar Form
Find the three cube roots of−8i = 8 cis 270◦ = 8 cis 630◦ = 8 cis 990◦
Solution: {2 cis 90◦,2 cis 210◦,2 cis 330◦}
= {2i ,−√
3− i ,√
3− i}
University of Minnesota Multiplying Complex Numbers/DeMoivre’s Theorem
![Page 35: Multiplying Complex Numbers/DeMoivre's Theoremweim0024/pdf/47 - DeMoivre... · Roots of Complex Numbers in Polar Form Find the three cube roots of 8i = 8 cis 270 DeMoivre’s Theorem:](https://reader034.vdocuments.mx/reader034/viewer/2022042710/5f5880a526fd310f9746840c/html5/thumbnails/35.jpg)
Roots of Complex Numbers in Polar Form
Find the three cube roots of−8i = 8 cis 270◦ = 8 cis 630◦ = 8 cis 990◦
Solution: {2 cis 90◦,2 cis 210◦,2 cis 330◦}
= {2i ,−√
3− i ,√
3− i}
University of Minnesota Multiplying Complex Numbers/DeMoivre’s Theorem
![Page 36: Multiplying Complex Numbers/DeMoivre's Theoremweim0024/pdf/47 - DeMoivre... · Roots of Complex Numbers in Polar Form Find the three cube roots of 8i = 8 cis 270 DeMoivre’s Theorem:](https://reader034.vdocuments.mx/reader034/viewer/2022042710/5f5880a526fd310f9746840c/html5/thumbnails/36.jpg)
Recap
• To multiply complex numbers in polar form, multiply thelengths and add the angles
• To divide complex numbers in polar form, divide thelengths and subtract the angles
• To raise complex number to a power, raise the length to thepower and multiply the angle by the power
• To find the roots of a complex number, take the root of thelength and divide the angle by the power
University of Minnesota Multiplying Complex Numbers/DeMoivre’s Theorem
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Written by: Mike Weimerskirch
Narration: Mike Weimerskirch
Graphic Design: Robbie Hank
University of Minnesota Multiplying Complex Numbers/DeMoivre’s Theorem
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University of Minnesota Multiplying Complex Numbers/DeMoivre’s Theorem