1 / 38

Theorems About Roots of Polynomial Equations

Theorems About Roots of Polynomial Equations. Rational Roots. POLYNOMIALS and THEOREMS Theorems of Polynomial Equations. There are 5 BIG Theorems to know about Polynomials Rational Root Theorem Fundamental Theorem of Algebra Irrational Root Theorem Imaginary Root Theorem Descartes Rule.

anson
Télécharger la présentation

Theorems About Roots of Polynomial Equations

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Theorems About Roots of Polynomial Equations Rational Roots

  2. POLYNOMIALS and THEOREMSTheorems of Polynomial Equations There are 5 BIG Theorems to know about Polynomials Rational Root Theorem Fundamental Theorem of Algebra Irrational Root Theorem Imaginary Root Theorem Descartes Rule

  3. All the mentioned theorems give some clues about the roots of a function that is the form of a polynomial. • In advance Algebra we study only the first two. You will see the other theorems in Pre calculus. • The first theorem… which is the, Fundamental Theorem of Algebra state:

  4. For f(x) where n > 0, there is at least one zero in the complex number system Complex → real and imaginary f(x) of degree n will have exactly n zeros (real and imaginary) As a reminder: Real zeros → can see on graph Imaginary → cannot see on graph

  5. Next • THE Rational Root Theorem is explained by the next few slides.

  6. Consider the following . . . x3 – 5x2 – 2x + 24 = 0 This equation factors to: (x+2)(x-3)(x-4)= 0 The roots therefore are: -2, 3, 4

  7. Take a closer look at the original equation and our roots: x3 – 5x2 – 2x + 24 = 0 The roots therefore are: -2, 3, 4 What do you notice? -2, 3, and 4 are all factors of the constant term, 24

  8. Spooky! Let’s look at another • 24x3 – 22x2 – 5x + 6 = 0 • This equation factors to: • (x+1)(x-2)(x-3)= 0 2 3 4 • The roots therefore are: -1/2, 2/3, 3/4

  9. Take a closer look at the original equation and our roots: • 24x3 – 22x2 – 5x + 6 = 0 • This equation factors to: (x+1)(x-2)(x-3)= 0 234 The roots therefore are: -1, 2, 3 2 3 4 The numerators 1, 2, and 3 are all factors of the constant term, 6. The denominators (2, 3, and 4) are all factors of the coefficient of the leading term, 24.

  10. This leads us to the Rational Root Theorem For a polynomial, If is a root of the polynomial, then p is a factor of the constant term, and q is a factor of the coefficient of the leading term,

  11. Example (RRT) 1. For polynomial Here p = -3 and q = 1 Factors of -3 Factors of 1 ±3, ±1 ±1  Or 3,-3, 1, -1 Possible roots are ___________________________________ 2. For polynomial Here p = 12 and q = 3 Factors of 12 Factors of 3 ±12, ±6 , ±3 , ± 2 , ±1±4 ±1 , ±3  Possible roots are ______________________________________________ Or ±12, ±4, ±6, ±2, ±3, ±1, ± 2/3, ±1/3, ±4/3 Wait a second . . . Where did all of these come from???

  12. Let’s look at our solutions ±12, ±6 , ±3 , ± 2 , ±1, ±4 ±1 , ±3 Note that + 2 is listed twice; we only consider it as one answer Note that + 1 is listed twice; we only consider it as one answer Note that + 4 is listed twice; we only consider it as one answer That is where our 9 possible answers come from!

  13. Let’s Try One Find the POSSIBLE roots of 5x3-24x2+41x-20=0

  14. Let’s Try One 5x3-24x2+41x-20=0

  15. That’s a lot of answers! • Obviously 5x3-24x2+41x-20=0 does not have all of those roots as answers. • Remember: these are only POSSIBLE roots. We take these roots and figure out what answers actually WORK.

  16. Step 1: find p and q p = -3 q = 1 • Step 2 : by RRT, the only rational root is of the form… • Factors of p Factors of q

  17. Step 3 : factors • Factors of -3 = ±3, ±1 Factors of 1 = ± 1 • Step 4 : possible roots • -3, 3, 1, and -1

  18. X X³ + X² – 3x – 3 -1 1 1 -3 -3 -3 3 1 -1 (-3)³ + (-3)² – 3(-3) – 3 = -12 (3)³ + (3)² – 3(3) – 3 = 24 3 -1 0 (1)³ + (1)² – 3(1) – 3 = -4 1 0 -3 0 (-1)³ + (-1)² – 3(-1) – 3 = 0 THIS IS YOUR ROOT BECAUSE WE ARE LOOKING FOR WHAT ROOTS WILL MAKE THE EQUATION =0 1x² + 0x -3 • Step 6: synthetic division • Step 5: Test each root

  19. Step 7: Rewrite • x³ + x² - 3x - 3 = (x + 1)(x² – 3) • Step 8: factor more and solve • (x + 1)(x² – 3) • (x + 1)(x – √3)(x + √3) • Roots are -1, ± √3

  20. Notes • You may also use the synthetic division/ substitution to evaluate the polynomial. • You may also use the graph of the polynomial to find the first root.

  21. Let’s Try One Find the roots of 2x3 – x2 + 2x - 1 Take this in parts. First find the possible roots. Then determine which root actually works.

  22. Let’s Try One 2x3 – x2 + 2x - 1

  23. Using the Polynomial TheoremsFACTOR and SOLVE x³ – 5x² + 8x – 6 = 0 Step 1: find p and q p = -6 q = 1 • Step 2: by RRT, the only rational root is of the form… • Factors of p Factors of q

  24. Using the Polynomial TheoremsFACTOR and SOLVE x³ – 5x² + 8x – 6 = 0 • Step 3 – factors • Factors of -6 = ±1, ±2, ±3, ±6 Factors of 1 = ±1 • Step 4 – possible roots • -6, 6, -3, 3, -2, 2, 1, and -1

  25. Using the Polynomial TheoremsFACTOR and SOLVE x³ – 5x² + 8x – 6 = 0 X x³ – 5x² + 8x – 6 -450 78 0 -102 -2 -50 -2 -20 -6 6 3 -3 2 -2 1 -1 3 1 -5 8 -6 THIS IS YOUR ROOT 6 3 -6 1 -2 2 0 1x² + -2x + 2 • Step 5 – Test each root • Step 6 – synthetic division

  26. Using the Polynomial TheoremsFACTOR and SOLVE x³ – 5x² + 8x – 6 = 0 X= 3 Quadratic Formula • Step 7 – Rewrite • x³ – 5x² + 8x – 6 = (x - 3)(x² – 2x + 2) • Step 8– factor more and solve • (x - 3)(x² – 2x + 2) • Roots are 3, 1 ± i

  27. Irrational Root Theorem CONJUGATE ___________________________ Complex pairs of form a + √ b and a - √ b For a polynomial If a + √b is a root, Then a - √b is also a root Irrationals always come in pairs. Real values might not.

  28. Example (IRT) 1. For polynomial has roots 3 + √2 2 3 - √2 Degree of Polynomial ______ Other roots ______ 2. For polynomial has roots -1, 0, - √3, 1 + √5 6 √3 , 1 - √5 Other roots __________ Degree of Polynomial ______

  29. Example (IRT) 1. For polynomial has roots 1 + √3 and -√11 1 - √3 √11 Other roots ______ _______ 4 Degree of Polynomial ______ Question: One of the roots of a polynomial is Can you be certain that is also a root? No. The Irrational Root Theorem does not apply unless you know that all the coefficients of a polynomial are rational. You would have to have as your root to make use of the IRT.

  30. Write a polynomial given the roots5 and √2 • Another root is - √2 • Put in factored form • y = (x – 5)(x + √2 )(x – √2 )

  31. Decide what to FOIL first y = (x – 5)(x + √2 )(x – √2 ) X -√2 x √2 X2 -X √2 (x² – 2) X √2 -2

  32. FOIL or BOX to finish it up (x-5)(x² – 2) y = x³ – 2x – 5x² + 10 Standard Form y = x³ – 5x² – 2x + 10 x2 -2 x -5 X3 -2x -5x2 10

  33. Write a polynomial given the roots-√5, √7 Other roots are √5 and -√7 Put in factored form y = (x – √5 )(x + √5)(x – √7)(x + √7) Decide what to FOIL first

  34. y = (x – √5 )(x + √5)(x – √7)(x + √7) Foil or use a box method to multiply the binomials X -√5 X -√7 x √5 x √7 X2 -X √5 X2 -X √7 X √5 -5 X √7 -7 (x² – 5) (x² – 7)

  35. y = (x² – 5)(x² – 7) FOIL or BOX to finish it up y = x4 – 7x² – 5x² + 35 Clean up y = x4 – 12x² + 35 x2 -5 x2 -7 X4 -5x2 -7x2 35

  36. Complex Root Theorem CONJUGATE ___________________________ Complex pairs of form and For a polynomial If is a root, Then is also a root Complex roots come in pairs. Real values might not.

  37. Descartes Rule

More Related