SlideShare une entreprise Scribd logo

Polynomials

Télécharger en tant que PPTX, PDF
Ver Louie Gautani
Ver Louie Gautani

The document defines key polynomial vocabulary including: - Terms are numbers or products of numbers and variables raised to powers. Coefficients are numerical factors of terms. Constants are terms that are only numbers. - Polynomials are sums of terms involving variables raised to whole number exponents, with no variables in denominators. - Types of polynomials include monomials (1 term), binomials (2 terms), and trinomials (3 terms). Degree is the largest exponent of any term. - Operations on polynomials include adding/subtracting like terms, multiplying using distribution and FOIL, dividing using long division, and special products like (a+b)2 and (a+b)(a

1  sur  33
Let’s Define it.
P O LY N O M I A L V O C A B U L A R Y Term – a number or a product of a number and variables raised to powers Coefficient – numerical factor of a term Constant – term which is only a number Polynomial is a sum of terms involving variables raised to a whole number exponent, with no variables appearing in any denominator.
P O LY N O M I A L V O C A B U L A R Y In the polynomial 7x5 + x2y2 – 4xy + 7 There are 4 terms: 7x5, x2y2, -4xy and 7. The coefficient of term 7x5 is 7, of term x2y2 is 1, of term –4xy is –4 and of term 7 is 7. 7 is a constant term.
T Y P E S O F P O LY N O M I A L S Monomial is a polynomial with 1 term. Binomial is a polynomial with 2 terms. Trinomial is a polynomial with 3 terms. Multinomial is a polynomial with 4 or more terms.
DEGREES Degree of a term To find the degree, take the sum of the exponents on the variables contained in the term. Degree of a constant is 0. Degree of the term 5a4b3c is 8 (remember that c can be written as c1). Degree of a polynomial To find the degree, take the largest degree of any term of the polynomial. Degree of 9x3 – 4x2 + 7 is 3.
E VA L U AT I N G P O LY N O M I A L S Evaluating a polynomial for a particular value involves replacing the value for the variable(s) involved. Example Find the value of 2x3 – 3x + 4 when x = 2. 2x3 – 3x + 4 = 2( 2)3 – 3( 2) + 4 = 2( 8) + 6 + 4 = 6
COMBINING LIKE TERMS Like terms are terms that contain exactly the same variables raised to exactly the same powers. Warning! Only like terms can be combined through addition and subtraction. Example Combine like terms to simplify. x2y + xy – y + 10x2y – 2y + xy = x2y + 10x2y + xy + xy – y – 2y (Like terms are grouped together) = (1 + 10)x2y + (1 + 1)xy + (– 1 – 2)y = 11x2y + 2xy – 3y
ADDING AND SUBTRACTING POLYNOMIALS Let’s Add and Subtract!
ADDING AND SUBTRACTING POLYNOMIALS Adding Polynomials Combine all the like terms. Subtracting Polynomials Change the signs of the terms of the polynomial being subtracted, and then combine all the like terms.
ADDING AND SUBTRACTING POLYNOMIALS Example Add or subtract each of the following, as indicated. 1) (3x – 8) + (4x2 – 3x +3) = 3x – 8 + 4x2 – 3x + 3 = 4x2 + 3x – 3x – 8 + 3 = 4x2 – 5 2) 4 – (– y – 4) = 4 + y + 4 = y + 4 + 4 = y + 8 3) (– a2 + 1) – (a2 – 3) + (5a2 – 6a + 7) = – a2 + 1 – a2 + 3 + 5a2 – 6a + 7 = – a2 – a2 + 5a2 – 6a + 1 + 3 + 7 = 3a2 – 6a + 11
ADDING AND SUBTRACTING POLYNOMIALS In the previous examples, after discarding the parentheses, we would rearrange the terms so that like terms were next to each other in the expression. You can also use a vertical format in arranging your problem, so that like terms are aligned with each other vertically.
MULTIPLYING POLYNOMIALS Let’s Multiply!
M U LT I P LY I N G P O LY N O M I A L S Multiplying polynomials • If all of the polynomials are monomials, use the associative and commutative properties. • If any of the polynomials are not monomials, use the distributive property before the associative and commutative properties. Then combine like terms.
Multiplying Polynomials Example Multiply each of the following. 1) (3x2)(– 2x) = (3)(– 2)(x2 · x) = – 6x3 2) (4x2)(3x2 – 2x + 5) = (4x2)(3x2) – (4x2)(2x) + (4x2)(5) (Distributive property) = 12x4 – 8x3 + 20x2 (Multiply the monomials) 3) (2x – 4)(7x + 5) = 2x(7x + 5) – 4(7x + 5) = 14x2 + 10x – 28x – 20 = 14x2 – 18x – 20
Multiplying Polynomials Example Multiply (3x + 4)2 Remember that a2 = a · a, so (3x + 4)2 = (3x + 4)(3x + 4). (3x + 4)2 = (3x + 4)(3x + 4) = (3x)(3x + 4) + 4(3x + 4) = 9x2 + 12x + 12x + 16 = 9x2 + 24x + 16
Multiplying Polynomials Example Multiply (a + 2)(a3 – 3a2 + 7). (a + 2)(a3 – 3a2 + 7) = a(a3 – 3a2 + 7) + 2(a3 – 3a2 + 7) = a4 – 3a3 + 7a + 2a3 – 6a2 + 14a4 – a3 – 6a2 + 7a + 14 =
Multiplying Polynomials Example Multiply (3x – 7y)(7x + 2y) (3x – 7y)(7x + 2y) = (3x)(7x + 2y) – 7y(7x + 2y) = 21x2 + 6xy – 49xy + 14y2 = 21x2 – 43xy + 14y2
Multiplying Polynomials Example Multiply (5x – 2z)2 (5x – 2z)2 = (5x – 2z)(5x – 2z) = (5x)(5x – 2z) – 2z(5x – 2z) = 25x2 – 10xz – 10xz + 4z2 = 25x2 – 20xz + 4z2
Multiplying Polynomials Example Multiply (2x2 + x – 1)(x2 + 3x + 4) (2x2 + x – 1)(x2 + 3x + 4) = (2x2)(x2 + 3x + 4) + x(x2 + 3x + 4) – 1(x2 + 3x + 4) = 2x4 + 6x3 + 8x2 + x3 + 3x2 + 4x – x2 – 3x – 4 = 2x4 + 7x3 + 10x2 + x – 4
SPECIAL PRODUCTS Let’s multiply!
THE FOIL METHOD When multiplying 2 binomials, the distributive property can be easily remembered as the FOIL method. F – product of First terms O – product of Outside terms I – product of Inside terms L – product of Last terms
Using the FOIL Method Example Multiply (y – 12)(y + 4) (y – 12)(y + 4) Product of First terms is y2 (y – 12)(y + 4) Product of Outside terms is 4y (y – 12)(y + 4) Product of Inside terms is -12y (y – 12)(y + 4) Product of Last terms is -48 F O I L (y – 12)(y + 4) = y2 + 4y – 12y – 48 = y2 – 8y – 48
Using the FOIL Method Example Multiply (2x – 4)(7x + 5) F L F O I L (2x – 4)(7x + 5) = 2x(7x) + 2x(5) – 4(7x) – 4(5) I O = 14x2 + 10x – 28x – 20 = 14x2 – 18x – 20 We multiplied these same two binomials together in the previous section, using a different technique, but arrived at the same product.
Special Products In the process of using the FOIL method on products of certain types of binomials, we see specific patterns that lead to special products. Squaring a Binomial (a + b)2 = a2 + 2ab + b2 (a – b)2 = a2 – 2ab + b2 Multiplying the Sum and Difference of Two Terms (a + b)(a – b) = a2 – b2
Special Products Although you will arrive at the same results for the special products by using the techniques of this section or last section, memorizing these products can save you some time in multiplying polynomials.
DIVIDING POLYNOMIALS Let’s divide!
D I V I D I N G P O LY N O M I A L S Dividing a polynomial by a monomial Divide each term of the polynomial separately by the monomial. 3 3 12 a 36 a 15 12 a 36 a 15 Example 3a 3a 3a 3a 2 5 4a 12 a
DIVIDING POLYNOMIALS D I V I D I N G P O LY N O M I A L S Dividing a polynomial by a polynomial other than a monomial uses a “long division” technique that is similar to the process known as long division in dividing two numbers, which is reviewed on the next slide.
DIVIDING POLYNOMIALS D I V I D I N G P O LY N O M I A L S 168 Divide 43 into 72. Multiply 1 times 43. 43 7256 Subtract 43 from 72. 43 Bring down 5. 29 5 Divide 43 into 295. 258 Multiply 6 times 43. Subtract 258 from 295. 37 6 Bring down 6. 344 Divide 43 into 376. 32 Multiply 8 times 43. Subtract 344 from 376. We then write our result as 32 Nothing to bring down. 168 . 43
Dividing P O L Y N O M I A L S DIVIDING Polynomials As you can see from the previous example, there is a pattern in the long division technique. Divide Multiply Subtract Bring down Then repeat these steps until you can’t bring down or divide any longer. We will incorporate this same repeated technique with dividing polynomials.
DIVIDING POLYNOMIALS D I V I D I N G P O LY N O M I A L S 4x 5 Divide 7x into 28x2. Multiply 4x times 7x+3. 2 7x 3 28 x 23 x 15 Subtract 28x2 + 12x from 28x2 – 23x. 2 Bring down – 15. 28 x 12 x Divide 7x into –35x. 35 x 15 Multiply – 5 times 7x+3. Subtract –35x–15 from –35x–15. 35 x 15 Nothing to bring down. So our answer is 4x – 5.
Dividing P O L Y N O M I A L S DIVIDING Polynomials 2 x 10 Divide 2x into 4x2. 2 Multiply 2x times 2x+7. 2 x 7 4x 6x 8 Subtract 4x2 + 14x from 4x2 – 6x. 2 4 x 14 x Bring down 8. 20 x 8 Divide 2x into –20x. 20 x 70 Multiply -10 times 2x+7. Subtract –20x–70 from –20x+8. 78 Nothing to bring down. We write our final answer as 2 x 10 78 ( 2 x 7)
THE END GOODBYE! 

Recommandé

Evaluating Algebraic Expressions
Evaluating Algebraic ExpressionsEvaluating Algebraic Expressions
Evaluating Algebraic Expressionsbizarregirl
 
Multiplying polynomials
Multiplying polynomialsMultiplying polynomials
Multiplying polynomialschrystal_brinson
 
Adding Polynomials
Adding PolynomialsAdding Polynomials
Adding Polynomialschulitt
 
Division Of Polynomials
Division Of PolynomialsDivision Of Polynomials
Division Of PolynomialsMid Michigan Community College
 
Polynomials
PolynomialsPolynomials
PolynomialsPoonam Singh
 
7.7 Solving Radical Equations
7.7 Solving Radical Equations7.7 Solving Radical Equations
7.7 Solving Radical Equationsswartzje
 
Linear Equations and Inequalities in One Variable
Linear Equations and Inequalities in One VariableLinear Equations and Inequalities in One Variable
Linear Equations and Inequalities in One Variablemisey_margarette
 
Algebraic expressions
Algebraic expressionsAlgebraic expressions
Algebraic expressionsManav Gupta
 

Recommandé

Evaluating Algebraic Expressions
Evaluating Algebraic ExpressionsEvaluating Algebraic Expressions
Evaluating Algebraic Expressionsbizarregirl
 
Multiplying polynomials
Multiplying polynomialsMultiplying polynomials
Multiplying polynomialschrystal_brinson
 
Adding Polynomials
Adding PolynomialsAdding Polynomials
Adding Polynomialschulitt
 
Division Of Polynomials
Division Of PolynomialsDivision Of Polynomials
Division Of PolynomialsMid Michigan Community College
 
Polynomials
PolynomialsPolynomials
PolynomialsPoonam Singh
 
7.7 Solving Radical Equations
7.7 Solving Radical Equations7.7 Solving Radical Equations
7.7 Solving Radical Equationsswartzje
 
Linear Equations and Inequalities in One Variable
Linear Equations and Inequalities in One VariableLinear Equations and Inequalities in One Variable
Linear Equations and Inequalities in One Variablemisey_margarette
 
Algebraic expressions
Algebraic expressionsAlgebraic expressions
Algebraic expressionsManav Gupta
 
Introduction to algebra
Introduction to algebraIntroduction to algebra
Introduction to algebraSukkur IBA
 
Adding and subtracting polynomials
Adding and subtracting polynomialsAdding and subtracting polynomials
Adding and subtracting polynomialsholmsted
 
Multiplying polynomials
Multiplying polynomialsMultiplying polynomials
Multiplying polynomialscvaughn911
 
Laws Of Exponents
Laws Of ExponentsLaws Of Exponents
Laws Of ExponentsPhil Saraspe
 
Powers and Exponents
Powers and ExponentsPowers and Exponents
Powers and ExponentsTaleese
 
Absolute value
Absolute valueAbsolute value
Absolute valuetvierra
 
Slope of a Line
Slope of a LineSlope of a Line
Slope of a Linekaren wagoner
 
Rational Expressions
Rational ExpressionsRational Expressions
Rational ExpressionsVer Louie Gautani
 
Factoring Polynomials
Factoring PolynomialsFactoring Polynomials
Factoring PolynomialsVer Louie Gautani
 
Linear Equations in Two Variables
Linear Equations in Two VariablesLinear Equations in Two Variables
Linear Equations in Two Variablessheisirenebkm
 
POLYNOMIALS
POLYNOMIALSPOLYNOMIALS
POLYNOMIALSDEV YADAV
 
Simplifying Rational Expressions
Simplifying Rational ExpressionsSimplifying Rational Expressions
Simplifying Rational ExpressionsBigMoneyAna
 
Dividing polynomials
Dividing polynomialsDividing polynomials
Dividing polynomialssalvie alvaro
 
Algebraic expressions
Algebraic expressionsAlgebraic expressions
Algebraic expressionsChristie Harp
 
Factoring Sum and Difference of Two Cubes
Factoring Sum and Difference of Two CubesFactoring Sum and Difference of Two Cubes
Factoring Sum and Difference of Two CubesFree Math Powerpoints
 
Solving Quadratic Equations by Factoring
Solving Quadratic Equations by FactoringSolving Quadratic Equations by Factoring
Solving Quadratic Equations by FactoringMid Michigan Community College
 
Remainder and Factor Theorem
Remainder and Factor TheoremRemainder and Factor Theorem
Remainder and Factor TheoremTrish Hammond
 
Quadratic Formula Presentation
Quadratic Formula PresentationQuadratic Formula Presentation
Quadratic Formula Presentationanjuli1580
 
Polynomials Mathematics Grade 7
Polynomials Mathematics Grade 7Polynomials Mathematics Grade 7
Polynomials Mathematics Grade 7Yojam Mhajhoye Ebora Garcia
 
Integers ppt
Integers pptIntegers ppt
Integers pptAndrea B.
 
Adding and Subtracting Polynomials - Math 7 Q2W4 LC1
Adding and Subtracting Polynomials - Math 7 Q2W4 LC1Adding and Subtracting Polynomials - Math 7 Q2W4 LC1
Adding and Subtracting Polynomials - Math 7 Q2W4 LC1Carlo Luna
 
Polynomials and factoring
Polynomials and factoringPolynomials and factoring
Polynomials and factoringShilpi Singh
 

Contenu connexe

Tendances

Introduction to algebra
Introduction to algebraIntroduction to algebra
Introduction to algebraSukkur IBA
 
Adding and subtracting polynomials
Adding and subtracting polynomialsAdding and subtracting polynomials
Adding and subtracting polynomialsholmsted
 
Multiplying polynomials
Multiplying polynomialsMultiplying polynomials
Multiplying polynomialscvaughn911
 
Powers and Exponents
Powers and ExponentsPowers and Exponents
Powers and ExponentsTaleese
 
Absolute value
Absolute valueAbsolute value
Absolute valuetvierra
 
Linear Equations in Two Variables
Linear Equations in Two VariablesLinear Equations in Two Variables
Linear Equations in Two Variablessheisirenebkm
 
Simplifying Rational Expressions
Simplifying Rational ExpressionsSimplifying Rational Expressions
Simplifying Rational ExpressionsBigMoneyAna
 
Dividing polynomials
Dividing polynomialsDividing polynomials
Dividing polynomialssalvie alvaro
 
Algebraic expressions
Algebraic expressionsAlgebraic expressions
Algebraic expressionsChristie Harp
 
Factoring Sum and Difference of Two Cubes
Factoring Sum and Difference of Two CubesFactoring Sum and Difference of Two Cubes
Factoring Sum and Difference of Two CubesFree Math Powerpoints
 
Remainder and Factor Theorem
Remainder and Factor TheoremRemainder and Factor Theorem
Remainder and Factor TheoremTrish Hammond
 
Quadratic Formula Presentation
Quadratic Formula PresentationQuadratic Formula Presentation
Quadratic Formula Presentationanjuli1580
 
Integers ppt
Integers pptIntegers ppt
Integers pptAndrea B.
 

Tendances (20)

Introduction to algebra
Introduction to algebraIntroduction to algebra
Introduction to algebra
 
Adding and subtracting polynomials
Adding and subtracting polynomialsAdding and subtracting polynomials
Adding and subtracting polynomials
 
Multiplying polynomials
Multiplying polynomialsMultiplying polynomials
Multiplying polynomials
 
Laws Of Exponents
Laws Of ExponentsLaws Of Exponents
Laws Of Exponents
 
Powers and Exponents
Powers and ExponentsPowers and Exponents
Powers and Exponents
 
Absolute value
Absolute valueAbsolute value
Absolute value
 
Slope of a Line
Slope of a LineSlope of a Line
Slope of a Line
 
Rational Expressions
Rational ExpressionsRational Expressions
Rational Expressions
 
Factoring Polynomials
Factoring PolynomialsFactoring Polynomials
Factoring Polynomials
 
Linear Equations in Two Variables
Linear Equations in Two VariablesLinear Equations in Two Variables
Linear Equations in Two Variables
 
POLYNOMIALS
POLYNOMIALSPOLYNOMIALS
POLYNOMIALS
 
Simplifying Rational Expressions
Simplifying Rational ExpressionsSimplifying Rational Expressions
Simplifying Rational Expressions
 
Dividing polynomials
Dividing polynomialsDividing polynomials
Dividing polynomials
 
Algebraic expressions
Algebraic expressionsAlgebraic expressions
Algebraic expressions
 
Factoring Sum and Difference of Two Cubes
Factoring Sum and Difference of Two CubesFactoring Sum and Difference of Two Cubes
Factoring Sum and Difference of Two Cubes
 
Solving Quadratic Equations by Factoring
Solving Quadratic Equations by FactoringSolving Quadratic Equations by Factoring
Solving Quadratic Equations by Factoring
 
Remainder and Factor Theorem
Remainder and Factor TheoremRemainder and Factor Theorem
Remainder and Factor Theorem
 
Quadratic Formula Presentation
Quadratic Formula PresentationQuadratic Formula Presentation
Quadratic Formula Presentation
 
Polynomials Mathematics Grade 7
Polynomials Mathematics Grade 7Polynomials Mathematics Grade 7
Polynomials Mathematics Grade 7
 
Integers ppt
Integers pptIntegers ppt
Integers ppt
 

Similaire à Polynomials

Adding and Subtracting Polynomials - Math 7 Q2W4 LC1
Adding and Subtracting Polynomials - Math 7 Q2W4 LC1Adding and Subtracting Polynomials - Math 7 Q2W4 LC1
Adding and Subtracting Polynomials - Math 7 Q2W4 LC1Carlo Luna
 
Polynomials and factoring
Polynomials and factoringPolynomials and factoring
Polynomials and factoringShilpi Singh
 
Multiplying-and-dividing-polynomials.pptx
Multiplying-and-dividing-polynomials.pptxMultiplying-and-dividing-polynomials.pptx
Multiplying-and-dividing-polynomials.pptxregiebalios23
 
Factoring Polynomials (1).pptx
Factoring Polynomials (1).pptxFactoring Polynomials (1).pptx
Factoring Polynomials (1).pptxMartiNBaccay2
 
Algebraic Simplification and evaluation
Algebraic Simplification and evaluationAlgebraic Simplification and evaluation
Algebraic Simplification and evaluationPuna Ripiye
 
Addition and Subtraction of Polynomials
Addition and Subtraction of PolynomialsAddition and Subtraction of Polynomials
Addition and Subtraction of PolynomialsJoyYamut1
 
Simplifying expressions
Simplifying expressionsSimplifying expressions
Simplifying expressionsZain Masood
 
Distributive property ppt
Distributive property pptDistributive property ppt
Distributive property pptnglaze10
 
Lesson 7-7FOILPPT.ppt
Lesson 7-7FOILPPT.pptLesson 7-7FOILPPT.ppt
Lesson 7-7FOILPPT.pptmikeebio1
 
Q1-W1-Factoring Polynomials.pptx
Q1-W1-Factoring Polynomials.pptxQ1-W1-Factoring Polynomials.pptx
Q1-W1-Factoring Polynomials.pptxTherezaNoble
 

Similaire à Polynomials (20)

Adding and Subtracting Polynomials - Math 7 Q2W4 LC1
Adding and Subtracting Polynomials - Math 7 Q2W4 LC1Adding and Subtracting Polynomials - Math 7 Q2W4 LC1
Adding and Subtracting Polynomials - Math 7 Q2W4 LC1
 
Polynomials and factoring
Polynomials and factoringPolynomials and factoring
Polynomials and factoring
 
Prashant tiwari ppt.on
Prashant tiwari ppt.on Prashant tiwari ppt.on
Prashant tiwari ppt.on
 
Multiplying-and-dividing-polynomials.pptx
Multiplying-and-dividing-polynomials.pptxMultiplying-and-dividing-polynomials.pptx
Multiplying-and-dividing-polynomials.pptx
 
Factoring Polynomials (1).pptx
Factoring Polynomials (1).pptxFactoring Polynomials (1).pptx
Factoring Polynomials (1).pptx
 
9.9
9.99.9
9.9
 
Algebraic Simplification and evaluation
Algebraic Simplification and evaluationAlgebraic Simplification and evaluation
Algebraic Simplification and evaluation
 
Unit 3 polynomials
Unit 3 polynomialsUnit 3 polynomials
Unit 3 polynomials
 
9.4.1
9.4.19.4.1
9.4.1
 
9.4
9.49.4
9.4
 
Addition and Subtraction of Polynomials
Addition and Subtraction of PolynomialsAddition and Subtraction of Polynomials
Addition and Subtraction of Polynomials
 
Polynomials
PolynomialsPolynomials
Polynomials
 
11.2
11.211.2
11.2
 
Simplifying expressions
Simplifying expressionsSimplifying expressions
Simplifying expressions
 
4.5 5.5 notes 1
4.5 5.5 notes 14.5 5.5 notes 1
4.5 5.5 notes 1
 
Polynomial math
Polynomial mathPolynomial math
Polynomial math
 
Review of polynomials
Review of polynomialsReview of polynomials
Review of polynomials
 
Distributive property ppt
Distributive property pptDistributive property ppt
Distributive property ppt
 
Lesson 7-7FOILPPT.ppt
Lesson 7-7FOILPPT.pptLesson 7-7FOILPPT.ppt
Lesson 7-7FOILPPT.ppt
 
Q1-W1-Factoring Polynomials.pptx
Q1-W1-Factoring Polynomials.pptxQ1-W1-Factoring Polynomials.pptx
Q1-W1-Factoring Polynomials.pptx
 

Plus de Ver Louie Gautani

Division Properties of Exponents
Division Properties of ExponentsDivision Properties of Exponents
Division Properties of ExponentsVer Louie Gautani
 
Sequences, Series, and the Binomial Theorem
Sequences, Series, and the Binomial TheoremSequences, Series, and the Binomial Theorem
Sequences, Series, and the Binomial TheoremVer Louie Gautani
 
Simplification of Fractions and Operations on Fractions
Simplification of Fractions and Operations on FractionsSimplification of Fractions and Operations on Fractions
Simplification of Fractions and Operations on FractionsVer Louie Gautani
 
Multiplication Properties of Exponents
Multiplication Properties of ExponentsMultiplication Properties of Exponents
Multiplication Properties of ExponentsVer Louie Gautani
 
First Quarter - Chapter 2 - Quadratic Equation
First Quarter - Chapter 2 - Quadratic EquationFirst Quarter - Chapter 2 - Quadratic Equation
First Quarter - Chapter 2 - Quadratic EquationVer Louie Gautani
 

Plus de Ver Louie Gautani (11)

Division Properties of Exponents
Division Properties of ExponentsDivision Properties of Exponents
Division Properties of Exponents
 
Sequences, Series, and the Binomial Theorem
Sequences, Series, and the Binomial TheoremSequences, Series, and the Binomial Theorem
Sequences, Series, and the Binomial Theorem
 
Variation
VariationVariation
Variation
 
Roots and Radicals
Roots and RadicalsRoots and Radicals
Roots and Radicals
 
Rational Exponents
Rational ExponentsRational Exponents
Rational Exponents
 
Simplification of Fractions and Operations on Fractions
Simplification of Fractions and Operations on FractionsSimplification of Fractions and Operations on Fractions
Simplification of Fractions and Operations on Fractions
 
Multiplication Properties of Exponents
Multiplication Properties of ExponentsMultiplication Properties of Exponents
Multiplication Properties of Exponents
 
Scientific Notation
Scientific NotationScientific Notation
Scientific Notation
 
Integral Exponents
Integral ExponentsIntegral Exponents
Integral Exponents
 
First Quarter - Chapter 2 - Quadratic Equation
First Quarter - Chapter 2 - Quadratic EquationFirst Quarter - Chapter 2 - Quadratic Equation
First Quarter - Chapter 2 - Quadratic Equation
 
Operations on Polynomials
Operations on PolynomialsOperations on Polynomials
Operations on Polynomials
 

Polynomials

  • 2. P O LY N O M I A L V O C A B U L A R Y Term – a number or a product of a number and variables raised to powers Coefficient – numerical factor of a term Constant – term which is only a number Polynomial is a sum of terms involving variables raised to a whole number exponent, with no variables appearing in any denominator.
  • 3. P O LY N O M I A L V O C A B U L A R Y In the polynomial 7x5 + x2y2 – 4xy + 7 There are 4 terms: 7x5, x2y2, -4xy and 7. The coefficient of term 7x5 is 7, of term x2y2 is 1, of term –4xy is –4 and of term 7 is 7. 7 is a constant term.
  • 4. T Y P E S O F P O LY N O M I A L S Monomial is a polynomial with 1 term. Binomial is a polynomial with 2 terms. Trinomial is a polynomial with 3 terms. Multinomial is a polynomial with 4 or more terms.
  • 5. DEGREES Degree of a term To find the degree, take the sum of the exponents on the variables contained in the term. Degree of a constant is 0. Degree of the term 5a4b3c is 8 (remember that c can be written as c1). Degree of a polynomial To find the degree, take the largest degree of any term of the polynomial. Degree of 9x3 – 4x2 + 7 is 3.
  • 6. E VA L U AT I N G P O LY N O M I A L S Evaluating a polynomial for a particular value involves replacing the value for the variable(s) involved. Example Find the value of 2x3 – 3x + 4 when x = 2. 2x3 – 3x + 4 = 2( 2)3 – 3( 2) + 4 = 2( 8) + 6 + 4 = 6
  • 7. COMBINING LIKE TERMS Like terms are terms that contain exactly the same variables raised to exactly the same powers. Warning! Only like terms can be combined through addition and subtraction. Example Combine like terms to simplify. x2y + xy – y + 10x2y – 2y + xy = x2y + 10x2y + xy + xy – y – 2y (Like terms are grouped together) = (1 + 10)x2y + (1 + 1)xy + (– 1 – 2)y = 11x2y + 2xy – 3y
  • 8. ADDING AND SUBTRACTING POLYNOMIALS Let’s Add and Subtract!
  • 9. ADDING AND SUBTRACTING POLYNOMIALS Adding Polynomials Combine all the like terms. Subtracting Polynomials Change the signs of the terms of the polynomial being subtracted, and then combine all the like terms.
  • 10. ADDING AND SUBTRACTING POLYNOMIALS Example Add or subtract each of the following, as indicated. 1) (3x – 8) + (4x2 – 3x +3) = 3x – 8 + 4x2 – 3x + 3 = 4x2 + 3x – 3x – 8 + 3 = 4x2 – 5 2) 4 – (– y – 4) = 4 + y + 4 = y + 4 + 4 = y + 8 3) (– a2 + 1) – (a2 – 3) + (5a2 – 6a + 7) = – a2 + 1 – a2 + 3 + 5a2 – 6a + 7 = – a2 – a2 + 5a2 – 6a + 1 + 3 + 7 = 3a2 – 6a + 11
  • 11. ADDING AND SUBTRACTING POLYNOMIALS In the previous examples, after discarding the parentheses, we would rearrange the terms so that like terms were next to each other in the expression. You can also use a vertical format in arranging your problem, so that like terms are aligned with each other vertically.
  • 12. MULTIPLYING POLYNOMIALS Let’s Multiply!
  • 13. M U LT I P LY I N G P O LY N O M I A L S Multiplying polynomials • If all of the polynomials are monomials, use the associative and commutative properties. • If any of the polynomials are not monomials, use the distributive property before the associative and commutative properties. Then combine like terms.
  • 14. Multiplying Polynomials Example Multiply each of the following. 1) (3x2)(– 2x) = (3)(– 2)(x2 · x) = – 6x3 2) (4x2)(3x2 – 2x + 5) = (4x2)(3x2) – (4x2)(2x) + (4x2)(5) (Distributive property) = 12x4 – 8x3 + 20x2 (Multiply the monomials) 3) (2x – 4)(7x + 5) = 2x(7x + 5) – 4(7x + 5) = 14x2 + 10x – 28x – 20 = 14x2 – 18x – 20
  • 15. Multiplying Polynomials Example Multiply (3x + 4)2 Remember that a2 = a · a, so (3x + 4)2 = (3x + 4)(3x + 4). (3x + 4)2 = (3x + 4)(3x + 4) = (3x)(3x + 4) + 4(3x + 4) = 9x2 + 12x + 12x + 16 = 9x2 + 24x + 16
  • 16. Multiplying Polynomials Example Multiply (a + 2)(a3 – 3a2 + 7). (a + 2)(a3 – 3a2 + 7) = a(a3 – 3a2 + 7) + 2(a3 – 3a2 + 7) = a4 – 3a3 + 7a + 2a3 – 6a2 + 14a4 – a3 – 6a2 + 7a + 14 =
  • 17. Multiplying Polynomials Example Multiply (3x – 7y)(7x + 2y) (3x – 7y)(7x + 2y) = (3x)(7x + 2y) – 7y(7x + 2y) = 21x2 + 6xy – 49xy + 14y2 = 21x2 – 43xy + 14y2
  • 18. Multiplying Polynomials Example Multiply (5x – 2z)2 (5x – 2z)2 = (5x – 2z)(5x – 2z) = (5x)(5x – 2z) – 2z(5x – 2z) = 25x2 – 10xz – 10xz + 4z2 = 25x2 – 20xz + 4z2
  • 19. Multiplying Polynomials Example Multiply (2x2 + x – 1)(x2 + 3x + 4) (2x2 + x – 1)(x2 + 3x + 4) = (2x2)(x2 + 3x + 4) + x(x2 + 3x + 4) – 1(x2 + 3x + 4) = 2x4 + 6x3 + 8x2 + x3 + 3x2 + 4x – x2 – 3x – 4 = 2x4 + 7x3 + 10x2 + x – 4
  • 20. SPECIAL PRODUCTS Let’s multiply!
  • 21. THE FOIL METHOD When multiplying 2 binomials, the distributive property can be easily remembered as the FOIL method. F – product of First terms O – product of Outside terms I – product of Inside terms L – product of Last terms
  • 22. Using the FOIL Method Example Multiply (y – 12)(y + 4) (y – 12)(y + 4) Product of First terms is y2 (y – 12)(y + 4) Product of Outside terms is 4y (y – 12)(y + 4) Product of Inside terms is -12y (y – 12)(y + 4) Product of Last terms is -48 F O I L (y – 12)(y + 4) = y2 + 4y – 12y – 48 = y2 – 8y – 48
  • 23. Using the FOIL Method Example Multiply (2x – 4)(7x + 5) F L F O I L (2x – 4)(7x + 5) = 2x(7x) + 2x(5) – 4(7x) – 4(5) I O = 14x2 + 10x – 28x – 20 = 14x2 – 18x – 20 We multiplied these same two binomials together in the previous section, using a different technique, but arrived at the same product.
  • 24. Special Products In the process of using the FOIL method on products of certain types of binomials, we see specific patterns that lead to special products. Squaring a Binomial (a + b)2 = a2 + 2ab + b2 (a – b)2 = a2 – 2ab + b2 Multiplying the Sum and Difference of Two Terms (a + b)(a – b) = a2 – b2
  • 25. Special Products Although you will arrive at the same results for the special products by using the techniques of this section or last section, memorizing these products can save you some time in multiplying polynomials.
  • 26. DIVIDING POLYNOMIALS Let’s divide!
  • 27. D I V I D I N G P O LY N O M I A L S Dividing a polynomial by a monomial Divide each term of the polynomial separately by the monomial. 3 3 12 a 36 a 15 12 a 36 a 15 Example 3a 3a 3a 3a 2 5 4a 12 a
  • 28. DIVIDING POLYNOMIALS D I V I D I N G P O LY N O M I A L S Dividing a polynomial by a polynomial other than a monomial uses a “long division” technique that is similar to the process known as long division in dividing two numbers, which is reviewed on the next slide.
  • 29. DIVIDING POLYNOMIALS D I V I D I N G P O LY N O M I A L S 168 Divide 43 into 72. Multiply 1 times 43. 43 7256 Subtract 43 from 72. 43 Bring down 5. 29 5 Divide 43 into 295. 258 Multiply 6 times 43. Subtract 258 from 295. 37 6 Bring down 6. 344 Divide 43 into 376. 32 Multiply 8 times 43. Subtract 344 from 376. We then write our result as 32 Nothing to bring down. 168 . 43
  • 30. Dividing P O L Y N O M I A L S DIVIDING Polynomials As you can see from the previous example, there is a pattern in the long division technique. Divide Multiply Subtract Bring down Then repeat these steps until you can’t bring down or divide any longer. We will incorporate this same repeated technique with dividing polynomials.
  • 31. DIVIDING POLYNOMIALS D I V I D I N G P O LY N O M I A L S 4x 5 Divide 7x into 28x2. Multiply 4x times 7x+3. 2 7x 3 28 x 23 x 15 Subtract 28x2 + 12x from 28x2 – 23x. 2 Bring down – 15. 28 x 12 x Divide 7x into –35x. 35 x 15 Multiply – 5 times 7x+3. Subtract –35x–15 from –35x–15. 35 x 15 Nothing to bring down. So our answer is 4x – 5.
  • 32. Dividing P O L Y N O M I A L S DIVIDING Polynomials 2 x 10 Divide 2x into 4x2. 2 Multiply 2x times 2x+7. 2 x 7 4x 6x 8 Subtract 4x2 + 14x from 4x2 – 6x. 2 4 x 14 x Bring down 8. 20 x 8 Divide 2x into –20x. 20 x 70 Multiply -10 times 2x+7. Subtract –20x–70 from –20x+8. 78 Nothing to bring down. We write our final answer as 2 x 10 78 ( 2 x 7)