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Rational Root Theorem.ppt

The document discusses the rational root theorem and factor theorem for finding zeros or roots of polynomial functions. It provides examples of using the rational root theorem to find all possible rational roots of polynomials and using synthetic division or factoring to determine the actual roots. The document also defines zero multiplicity as the number of times a factor is repeated in the polynomial, and discusses how this relates to whether the graph crosses or touches the x-axis at that zero.

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Factor Theorem & Rational Root Theorem Objective: SWBAT find zeros of a polynomial by using Rational Root Theorem (also known as Rational Zeros Theorem)
The Factor Theorem:  For a polynomial P(x), x – k is a factor iff P(k) = 0  iff  “if and only if”  It means that a theorem and its converse are true
If P(x) = x3 – 5x2 + 2x + 8, determine whether x – 4 is a factor. 4 1 -5 2 8 4 -4 -8 1 -1 -2 0    2 3 2 4 2 8 2 5 x x x x x x        remainder is 0, therefore yes other factor
Terminology:  Solutions (or roots) of polynomial equations  Zeros of polynomial functions  “k is a zero of the function f if f(k) = 0”  zeros of functions are the x values of the points where the graph of the function crosses the x-axis (x-intercepts where y = 0)
Ex 1: A polynomial function and one of its zeros are given, find the remaining zeros: 3 2 ( ) 3 4 12; 2 P x x x x     2 1 3 -4 -12 2 10 12 1 5 6 0    2 5 6 0 2 3 0 2, 3 x x x x x         
Ex 2: A polynomial function and one of its zeros are given, find the remaining zeros: 3 ( ) 7 6; 3 P x x x     -3 1 0 -7 6 -3 9 -6 1 -3 2 0    2 3 2 0 1 2 0 1, 2 x x x x x       
Rational Root Theorem: Suppose that a polynomial equation with integral coefficients has the root p/q , where p and q are relatively prime integers. Then p must be a factor of the constant term of the polynomial and q must be a factor of the coefficient of the highest degree term. (useful when solving higher degree polynomial equations)
Solve using the Rational Root Theorem:  4x2 + 3x – 1 = 0 (any rational root must have a numerator that is a factor of -1 and a denominator that is a factor of 4) factors of -1: ±1 factors of 4: ±1,2,4 possible rational roots: (now use synthetic division to find rational roots) 1 1 1, , 2 4  1 4 3 -1 4 7 4 7 6 no -1 4 3 -1 -4 1 4 -1 0 ! yes 4 1 0 4 1 1 4 x x x     1 1, 4 x   (note: not all possible rational roots are zeros!)
Listing Possible Rational Roots  When remembering how to find the list of all possible rational roots of a polynomial, remember the silly snake puts his tail over his head (factors of the “tail of the polynomial” over factors of the “head of the polynomial”).
 Practice! This is how we LEARN…
Ex 3: Solve using the Rational Root Theorem: 3 2 2 13 10 0 x x x     1 1 2 -13 10 1 3 -10 1 3 -10 0 ! yes    2 3 10 0 5 2 0 5, 2 x x x x x         5,1, 2 x   1, 2, 5,10  possible rational roots:
Ex 4: Solve using the Rational Root Theorem: 3 2 4 4 0 x x x     possible rational roots: 1, 2, 4  1 1 -4 -1 4 1 -3 -4 1 -3 -4 0 ! yes    2 3 4 0 4 1 0 1, 4 x x x x x         1,1, 4 x  
Ex 5: Solve using the Rational Root Theorem: 3 2 3 5 4 4 0 x x x     possible rational roots: 1 2 4 1, 2, 4, , , 3 3 3  -1 3 -5 -4 4 -3 8 3 -8 -4 -4 0 ! yes    2 3 8 4 0 3 2 2 0 2 , 2 3 x x x x x        2 1, , 2 3 x   To find other roots can use synthetic division using other possible roots on these coefficients. (or factor and solve the quadratic equation) 2 3 -8 4 3 2 0 6 -4 3 2 3 -2 0 x x    2 3 x 
Section 3.3 – Polynomial Functions Definition: The graph of the function touches the x-axis but does not cross it. Zero Multiplicity of an Even Number Multiplicity The number of times a factor (m) of a function is repeated is referred to its multiplicity (zero multiplicity of m). The graph of the function crosses the x-axis. Zero Multiplicity of an Odd Number
Section 3.3 – Polynomial Functions 3 is a zero with a multiplicity of Identify the zeros and their multiplicity 3 -2 is a zero with a multiplicity of 1 Graph crosses the x-axis. Graph crosses the x-axis. -4 is a zero with a multiplicity of 2 7 is a zero with a multiplicity of 1 Graph crosses the x-axis. Graph touches the x-axis. -1 is a zero with a multiplicity of 1 4 is a zero with a multiplicity of 1 Graph crosses the x-axis. Graph crosses the x-axis. 2 2 is a zero with a multiplicity of Graph touches the x-axis.

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In this document
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Introduction to the Factor Theorem and Rational Root Theorem, helping to find zeros of polynomials, identifying a factor and roots.

Example of using the Factor Theorem to check if x-4 is a factor and find remaining zeros for given polynomial functions.

Details on Rational Root Theorem for finding rational roots in polynomials, including numeric examples with synthetic division.

Guide on listing all possible rational roots with examples, emphasizing the importance of factors from the polynomial.

Example problem applying the Rational Root Theorem, finding multiple roots through synthetic division.

Definitions of zero multiplicity in polynomial functions, explaining how graphs interact with the x-axis based on multiplicity.

Rational Root Theorem.ppt

  • 1.
    Factor Theorem &Rational Root Theorem Objective: SWBAT find zeros of a polynomial by using Rational Root Theorem (also known as Rational Zeros Theorem)
  • 2.
    The Factor Theorem: For a polynomial P(x), x – k is a factor iff P(k) = 0  iff  “if and only if”  It means that a theorem and its converse are true
  • 3.
    If P(x) =x3 – 5x2 + 2x + 8, determine whether x – 4 is a factor. 4 1 -5 2 8 4 -4 -8 1 -1 -2 0    2 3 2 4 2 8 2 5 x x x x x x        remainder is 0, therefore yes other factor
  • 4.
    Terminology:  Solutions (orroots) of polynomial equations  Zeros of polynomial functions  “k is a zero of the function f if f(k) = 0”  zeros of functions are the x values of the points where the graph of the function crosses the x-axis (x-intercepts where y = 0)
  • 5.
    Ex 1: Apolynomial function and one of its zeros are given, find the remaining zeros: 3 2 ( ) 3 4 12; 2 P x x x x     2 1 3 -4 -12 2 10 12 1 5 6 0    2 5 6 0 2 3 0 2, 3 x x x x x         
  • 6.
    Ex 2: Apolynomial function and one of its zeros are given, find the remaining zeros: 3 ( ) 7 6; 3 P x x x     -3 1 0 -7 6 -3 9 -6 1 -3 2 0    2 3 2 0 1 2 0 1, 2 x x x x x       
  • 7.
    Rational Root Theorem: Supposethat a polynomial equation with integral coefficients has the root p/q , where p and q are relatively prime integers. Then p must be a factor of the constant term of the polynomial and q must be a factor of the coefficient of the highest degree term. (useful when solving higher degree polynomial equations)
  • 8.
    Solve using theRational Root Theorem:  4x2 + 3x – 1 = 0 (any rational root must have a numerator that is a factor of -1 and a denominator that is a factor of 4) factors of -1: ±1 factors of 4: ±1,2,4 possible rational roots: (now use synthetic division to find rational roots) 1 1 1, , 2 4  1 4 3 -1 4 7 4 7 6 no -1 4 3 -1 -4 1 4 -1 0 ! yes 4 1 0 4 1 1 4 x x x     1 1, 4 x   (note: not all possible rational roots are zeros!)
  • 9.
    Listing Possible RationalRoots  When remembering how to find the list of all possible rational roots of a polynomial, remember the silly snake puts his tail over his head (factors of the “tail of the polynomial” over factors of the “head of the polynomial”).
  • 10.
     Practice! This ishow we LEARN…
  • 11.
    Ex 3: Solveusing the Rational Root Theorem: 3 2 2 13 10 0 x x x     1 1 2 -13 10 1 3 -10 1 3 -10 0 ! yes    2 3 10 0 5 2 0 5, 2 x x x x x         5,1, 2 x   1, 2, 5,10  possible rational roots:
  • 12.
    Ex 4: Solveusing the Rational Root Theorem: 3 2 4 4 0 x x x     possible rational roots: 1, 2, 4  1 1 -4 -1 4 1 -3 -4 1 -3 -4 0 ! yes    2 3 4 0 4 1 0 1, 4 x x x x x         1,1, 4 x  
  • 13.
    Ex 5: Solveusing the Rational Root Theorem: 3 2 3 5 4 4 0 x x x     possible rational roots: 1 2 4 1, 2, 4, , , 3 3 3  -1 3 -5 -4 4 -3 8 3 -8 -4 -4 0 ! yes    2 3 8 4 0 3 2 2 0 2 , 2 3 x x x x x        2 1, , 2 3 x   To find other roots can use synthetic division using other possible roots on these coefficients. (or factor and solve the quadratic equation) 2 3 -8 4 3 2 0 6 -4 3 2 3 -2 0 x x    2 3 x 
  • 14.
    Section 3.3 –Polynomial Functions Definition: The graph of the function touches the x-axis but does not cross it. Zero Multiplicity of an Even Number Multiplicity The number of times a factor (m) of a function is repeated is referred to its multiplicity (zero multiplicity of m). The graph of the function crosses the x-axis. Zero Multiplicity of an Odd Number
  • 15.
    Section 3.3 –Polynomial Functions 3 is a zero with a multiplicity of Identify the zeros and their multiplicity 3 -2 is a zero with a multiplicity of 1 Graph crosses the x-axis. Graph crosses the x-axis. -4 is a zero with a multiplicity of 2 7 is a zero with a multiplicity of 1 Graph crosses the x-axis. Graph touches the x-axis. -1 is a zero with a multiplicity of 1 4 is a zero with a multiplicity of 1 Graph crosses the x-axis. Graph crosses the x-axis. 2 2 is a zero with a multiplicity of Graph touches the x-axis.