Chapter 40 De Moivres Theorem simple applications 2262021
- Slides: 63
Chapter 40 De Moivre’s Theorem & simple applications 2/26/2021 By Chtan FYHS-Kulai 1
In mathematics, de Moivre‘s formula, named after Abraham de Moivre. 2/26/2021 By Chtan FYHS-Kulai 2
The formula is important because it connects complex numbers and trigonometry. The expression "cos x + i sin x" is sometimes abbreviated to "cis x". 2/26/2021 By Chtan FYHS-Kulai 3
By expanding the left hand side and then comparing the real and imaginary parts under the assumption that x is real, it is possible to derive useful expressions for cos(nx) and sin(nx) in terms of cos(x) and sin(x). 2/26/2021 By Chtan FYHS-Kulai 4
Furthermore, one can use a generalization of this formula to find explicit expressions for the n-th roots of unity, that is, complex numbers z such that zn = 1. 2/26/2021 By Chtan FYHS-Kulai 5
De Moivre’s theorem For all values of n, the value, or one of the values in the case where n is fractional, of is 2/26/2021 By Chtan FYHS-Kulai 6
Proofing of De Moivre’s Theorem 2/26/2021 By Chtan FYHS-Kulai 7
Now, let us prove this important theorem in 3 parts. 1. When n is a positive integer 2. When n is a negative integer 3. When n is a fraction 2/26/2021 By Chtan FYHS-Kulai 8
Case 1 : if n is a positive integer 2/26/2021 By Chtan FYHS-Kulai 9
2/26/2021 By Chtan FYHS-Kulai 10
2/26/2021 By Chtan FYHS-Kulai 11
Continuing this process, when n is a positive integer, 2/26/2021 By Chtan FYHS-Kulai 12
Case 2 : if n is a negative integer Let n=-m where m is positive integer 2/26/2021 By Chtan FYHS-Kulai 13
2/26/2021 By Chtan FYHS-Kulai 14
Case 3 : if n is a fraction equal to p/q, p and q are integers 2/26/2021 By Chtan FYHS-Kulai 15
Raising the RHS to power q we have, but, 2/26/2021 By Chtan FYHS-Kulai 16
Hence, De Moivre’s Theorem applies when n is a rational fraction. 2/26/2021 By Chtan FYHS-Kulai 17
Proofing by mathematic al induction 2/26/2021 By Chtan FYHS-Kulai 18
2/26/2021 By Chtan FYHS-Kulai 19
2/26/2021 By Chtan FYHS-Kulai 20
The hypothesis of Mathematical Induction has been satisfied , and we can conclude that 2/26/2021 By Chtan FYHS-Kulai 21
e. g. 1 Let z = 1 − i. Find . Soln: First write z in polar form. 2/26/2021 By Chtan FYHS-Kulai 22
Polar form : Applying de Moivre’s Theorem gives : 2/26/2021 By Chtan FYHS-Kulai 23
It can be verified directly that 2/26/2021 By Chtan FYHS-Kulai 24
Properties of 2/26/2021 By Chtan FYHS-Kulai 25
If then 2/26/2021 By Chtan FYHS-Kulai 26
Hence, 2/26/2021 By Chtan FYHS-Kulai 27
Similarly, if Hence, 2/26/2021 By Chtan FYHS-Kulai 28
We have, Maximum value of cosθ is 1, minimum value is -1. Hence, normally 2/26/2021 By Chtan FYHS-Kulai 29
What happen, if the value of is more than 2 or less than -2 ? 2/26/2021 By Chtan FYHS-Kulai 30
e. g. 2 Given that Prove that 2/26/2021 By Chtan FYHS-Kulai 31
e. g. 3 If 2/26/2021 , find By Chtan FYHS-Kulai 32
Do take note of the following : 2/26/2021 By Chtan FYHS-Kulai 33
e. g. 4 2/26/2021 By Chtan FYHS-Kulai 34
Applications of De Moivre’s theorem 2/26/2021 By Chtan FYHS-Kulai 35
We will consider three applications of De Moivre’s Theorem in this chapter. 1. Expansion of 2. Values of . 3. Expressions for terms of multiple angles. 2/26/2021 . By Chtan FYHS-Kulai in 36
Certain trig identities can be derived using De Moivre’s theorem. In particular, expression such as can be expressed in terms of : 2/26/2021 By Chtan FYHS-Kulai 37
e. g. 5 Use De Moivre’s Thorem to find an identity for in terms of 2/26/2021 . By Chtan FYHS-Kulai 38
e. g. 6 Soln: Find all complex cube roots of 27 i. We are looking for complex number z with the property Strategy : First we write 27 i in polar form : - 2/26/2021 By Chtan FYHS-Kulai 39
Now suppose Satisfies. Then, by De Moivre’s Theorem, 2/26/2021 By Chtan FYHS-Kulai 40
This means : where k is an integer. Possibilities are : k=0, k=1, k=2 2/26/2021 By Chtan FYHS-Kulai 41
2/26/2021 By Chtan FYHS-Kulai 42
2/26/2021 By Chtan FYHS-Kulai 43
In general : to find the complex nth roots of a non-zero complex number z. 1. Write z in polar form : 2/26/2021 By Chtan FYHS-Kulai 44
2. z will have n different nth roots (i. e. 3 cube roots, 4 fourth roots, etc. ) 3. All these roots will have the same modulus the positive real nth roots of r). 4. They will have different arguments : 2/26/2021 By Chtan FYHS-Kulai 45
5. The complex nth roots of z are given (in polar form) by …etc 2/26/2021 By Chtan FYHS-Kulai 46
e. g. 7 Find all the complex fourth roots of -16. Soln: Modulus = 16 Argument = ∏ 2/26/2021 By Chtan FYHS-Kulai 47
Fourth roots of 16 all have modulus : and possibilities for the arguments are : 2/26/2021 By Chtan FYHS-Kulai 48
Hence, fourth roots of -16 are : 2/26/2021 By Chtan FYHS-Kulai 49
e. g. 8 Given that and find the value of m. 2/26/2021 By Chtan FYHS-Kulai 50
e. g. 9 Solve that 2/26/2021 , hence prove By Chtan FYHS-Kulai 51
e. g. 10 Find the cube roots of -1. show that they can be denoted by and prove that 2/26/2021 By Chtan FYHS-Kulai 52
e. g. 11 Solve the following equations, giving any complex roots in the form 2/26/2021 By Chtan FYHS-Kulai 53
e. g. 12 Prove that Hence find 2/26/2021 By Chtan FYHS-Kulai 54
e. g. 13 Show that Use your result to solve the equation 2/26/2021 By Chtan FYHS-Kulai 55
e. g. 14 Use De Moivre’s Theorem to find 2/26/2021 By Chtan FYHS-Kulai 56
e. g. 15 2/26/2021 By Chtan FYHS-Kulai 57
e. g. 16 2/26/2021 By Chtan FYHS-Kulai 58
e. g. 17 2/26/2021 By Chtan FYHS-Kulai 59
e. g. 18 2/26/2021 By Chtan FYHS-Kulai 60
e. g. 19 Express in terms of multiple angles and hence evaluate 2/26/2021 By Chtan FYHS-Kulai 61
e. g. 20 Express in terms of and hence evaluate terms of. 2/26/2021 By Chtan FYHS-Kulai in 62
The end 2/26/2021 By Chtan FYHS-Kulai 63
- Nth root theorem
- De moivre's theorem
- De moivre's theorem
- De moivres
- 2262021
- 2262021
- 2262021
- 2262021
- Beakmans motor
- Computer teacher reajul
- 2262021
- Stokes and green's theorem
- State varignon’s theorem.
- Pythagoras summary
- Hahn banach theorem applications
- Maximum power transfer theorem
- Remainder theorem formula
- Using remainder theorem
- Factor theorem and remainder theorem
- Conjugate theorem
- Rational root theorem synthetic division
- Linear factors theorem and conjugate zeros theorem
- Simple past simple present will future
- Present simple future simple past simple
- Past continuous present simple
- Present simple, past simple, future simple
- Simple present simple future
- Present simple and past simple
- Simple present simple past simple future
- Verbo go no simple present
- Future simple present simple
- Chapter 3 skills and applications
- Drive right chapter 6
- Principles of economics chapter 28 answers
- Chapter 23:3 administering heat/cold applications
- Chapter 8 linear programming applications solutions
- Chapter 4 applications of derivatives
- Chapter 2 skills and applications
- Line regulation
- Chapter 4 applications of derivatives
- Tools needed in making simple electrical gadgets
- X simple and y simple
- Examples of simple subject and simple predicate
- Past continuous vs simple past
- Present wish examples
- The simple past ejemplos
- Present perfect simple
- Passive tabela
- Diferencia entre pasado simple y presente simple
- Rate of discount formula
- Simple present active voice
- The passive present simple and past simple
- Present simple revision
- Present simple present continuous past simple
- Forgive en pasado simple
- Past simple tworzenie
- Andy sometimes comics
- Present progressive review
- If + present simple
- Simple past vs simple present
- Past simple we use
- Past simple future simple
- First conditional
- Reported speech present simple