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9.1: Addition and Subtraction of Polynomials

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So far we have discussed linear functions and exponential functions. This lesson introduces polynomial functions.

Definition: A polynomial is an expression made with constants, variables, and positive integer exponents of the variables.

An example of a polynomial is: 4x^3 + 2x^2 - 3x + 1. There are four terms: 4x^3, \ 2x^2, \ 3x, and 1. The numbers appearing in each term in front of the variable are called the coefficients. 4, 2, and 3 are coefficients because those numbers are in front of a variable. The number appearing all by itself without a variable is called a constant. 1 is the constant because it is by itself.

Example 1: Identify the following expressions as polynomials or non-polynomials.

(a) 5x^2 - 2x

(b) 3x^2 - 2x^{-2}

(c) x\sqrt{x} - 1

(d) \frac{5}{x^3 + 1}

(e) 4x^{\frac{1}{3}}

(f) 4xy^2 - 2x^2y - 3 + y^3 - 3x^3

Solution:

(a) 5x^2 - 2x This is a polynomial.

(b) 3x^2 - 2x^{-2} This is not a polynomial because it has a negative exponent.

(c) x\sqrt{x} - 1 This is not a polynomial because is has a square root.

(d) \frac{5}{x^3 + 1} This is not a polynomial because the power of x appears in the denominator.

(e) 4x^{\frac{1}{3}} This is not a polynomial because it has a fractional exponent.

(f) 4xy^2 - 2x^y - 3 + y^3 - 3x^3 This is a polynomial.

Classifying Polynomials by Degree

The degree of a polynomial is the largest exponent of a single term.

  • 4x^3 has a degree of 3 and is called a cubic term or 3^{rd} order term.
  • 2x^2 has a degree of 2 and is called a quadratic term or 2^{nd} order term.
  • -3x has a degree of 1 and is called a linear term or 1^{st} order term.
  • 1 has a degree of 0 because there is no variable.

Polynomials can have more than one variable. Here is another example of a polynomial: t^4-6s^3t^2-12st+4s^4-5. This is a polynomial because all exponents on the variables are positive integers. This polynomial has five terms. Note: The degree of a term is the sum of the powers on each variable in the term.

t^4 has a degree of 4, so it’s a 4^{th} order term.

-6s^3t^2 has a degree of 5, so it’s a 5^{th} order term.

-12^{st} has a degree of 2, so it’s a 2^{nd} order term.

4s^4 has a degree of 4, so it’s a 4^{th} order term.

–5 is a constant, so its degree is 0.

Since the highest degree of a term in this polynomial is 5, this is a polynomial of degree 5 or a 5^{th} order polynomial.

Example 2: Identify the coefficient on each term, the degree of each term, and the degree of the polynomial.

x^4-3x^3y^2+8x-12

Solution: The coefficients of each term in order are 1, –3, 8 and the constant is –12.

The degrees of each term are 4, 5, 1, and 0. Therefore, the degree of the polynomial is 5.

A monomial is a one-termed polynomial. It can be a constant, a variable, or a combination of constants and variables. Examples of monomials are: b^2; \ 6; \ -2ab^2; \ \frac{1}{4} x^2

Rewriting Polynomials in Standard Form

Often, we arrange the terms in a polynomial in standard from in which the term with the highest degree is first and is followed by the other terms in order of decreasing power. The first term of a polynomial in this form is called the leading term, and the coefficient in this term is called the leading coefficient.

Example 3: Rearrange the terms in the following polynomials so that they are in standard form. Indicate the leading term and leading coefficient of each polynomial.

(a) 7-3x^3+4x

(b) ab-a^3+2b

Solution:

(a) 7-3x^3+4x is rearranged as -3x^3+4x+7. The leading term is -3x^3 and the leading coefficient is –3.

(b) ab-a^3+2b is rearranged as -a^3+ab+2b. The leading term is -a^3 and the leading coefficient is –1.

Simplifying Polynomials

A polynomial is simplified if it has no terms that are alike. Like terms are terms in the polynomial that have the same variable(s) with the same exponents, but they can have different coefficients.

2x^2y and 5x^2y are like terms.

6x^2y and 6xy^2 are not like terms.

If we have a polynomial that has like terms, we simplify by combining them.

& x^2 + \underline{6xy}-\underline{4xy} + y^2\\& \qquad \nearrow \qquad \nwarrow\\& \qquad \text{Like terms}

This polynomial is simplified by combining the like terms 6xy-4xy=2xy. We write the simplified polynomial as x^2+2xy+y^2.

Example 4: Simplify by collecting and combining like terms.

a^3b^3 - 5ab^4 + 2a^3b - a^3b^3 + 3ab^4 - a^2b

Solution: Use the Commutative Property of Addition to reorganize like terms then simplify.

& = (a^3b^3-a^3b^3) + (-5ab^4+3ab^4) + 2a^3b-a^2b\\& = 0-2ab^4+2a^3b-a^2b\\& = -2ab^4+2a^3 b-a^2 b

Adding and Subtracting Polynomials

To add or subtract polynomials, you have to group the like terms together and combine them to simplify.

Example 5: Add and simplify 3x^2-4x+7 and 2x^3-4x^2-6x+5.

Solution: Add 3x^2-4x+7 and 2x^3-4x^2-6x+5.

(3x^2-4x+7)+(2x^3-4x^2-6x+5)&=2x^3+(3x^2-4x^2 )+(-4x-6x)+(7+5)\\&=2x^3-x^2-10x+12

Multimedia Link: For more explanation of polynomials, visit http://www.purplemath.com/modules/polydefs.htm - Purplemath’s website.

Example 6: Subtract 5b^2-2a^2 from 4a^2-8ab-9b^2.

Solution:

(4a^2-8ab-9b^2)-(5b^2-2a^2)&=[(4a^2- (-2a^2)]+(-9b^2-5b^2)-8ab\\& = 6a^2-14b^2-8ab

Solving Real-World Problems Using Addition or Subtraction of Polynomials

Polynomials are useful for finding the areas of geometric objects. In the following examples, you will see this usefulness in action.

Example 7: Write a polynomial that represents the area of each figure shown.

(a)

(b)

Solution: The blue square has area: y \cdot y=y^2.

The yellow square has area: x \cdot x = x^2.

The pink rectangles each have area: x \cdot y =xy.

\text{Test area} & = y^2+x^2+xy+xy\\& = y^2 + x^2 + 2xy

To find the area of the green region we find the area of the big square and subtract the area of the little square.

The big square has area y \cdot y =y^2.

The little square has area x \cdot x = x^2.

Area of the green region = y^2-x^2

Practice Set

Sample explanations for some of the practice exercises below are available by viewing the following video. Note that there is not always a match between the number of the practice exercise in the video and the number of the practice exercise listed in the following exercise set.  However, the practice exercise is the same in both.

CK-12 Basic Algebra: Addition and Subtraction of Polynomials (15:59)

Define the following key terms.

  1. Polynomial
  2. Monomial
  3. Degree
  4. Leading coefficient

For each of the following expressions, decide whether it is a polynomial. Explain your answer.

  1. x^2+3x^{\frac{1}{2}}
  2. \frac{1}{3}x^2y-9y^2
  3. 3x^{-3}
  4. \frac{2}{3}t^2-\frac{1}{t^2}

Express each polynomial in standard form. Give the degree of each polynomial.

  1. 3-2x
  2. 8x^4-x+5x^2+11x^4-10
  3. 8-4x+3x^3
  4. -16+5f^8-7f^3
  5. -5+2x-5x^2+8x^3
  6. x^2-9x^4+12

Add and simplify.

  1. (x+8)+(-3x-5)
  2. (8r^4-6r^2-3r+9)+(3r^3+5r^2+12r-9)
  3. (-2x^2+4x-12) + (7x+x^2)
  4. (2a^2b-2a+9)+(5a^2b-4b+5)
  5. (6.9a^2-2.3b^2+2ab)+(3.1a-2.5b^2+b)

Subtract and simplify.

  1. (-t+15t^2)-(5t^2+2t-9)
  2. (-y^2+4y-5)-(5y^2+2y+7)
  3. (-h^7+2h^5+13h^3+4h^2-h-1)-(-3h^5+20h^3-3h^2+8h-4)
  4. (-5m^2-m)-(3m^2+4m-5)
  5. (2a^2b-3ab^2+5a^2b^2)-(2a^2b^2+4a^2b-5b^2)

Find the area of the following figures.

Mixed Review

  1. Solve by graphing \begin{cases}y=\frac{1}{3} x-4\\y=-4x+10 \end{cases}.
  2. Solve for u: 12=- \frac{4}{u}.
  3. Graph y=|x-4|+3 on a coordinate plane.
    1. State its domain and range.
    2. How has this graph been shifted from the parent function f(x)=|x|?
  4. Two dice are rolled. The sum of the values are recorded.
    1. Define the sample space.
    2. What is the probability the sum of the dice is nine?
  5. Consider the equation y=6500(0.8)^x.
    1. Sketch the graph of this function.
    2. Is this exponential growth or decay?
    3. What is the initial value?
    4. What is its domain and range?
    5. What is the value when x=9.5?
  6. Write an equation for the line that is perpendicular to y=-5 and contains the ordered pair (6, –5)

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8 , 9

Date Created:

Feb 22, 2012

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Aug 21, 2014
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