Polynomial Functions and Inequalities Chapter 6 Polynomial Functions and Inequalities
6.1 Properties of Exponents Negative Exponents For any real number a = 0 and any integer n, a-n = Move the base with the negative exponent to the other part of the fraction to make it positive
Product of Powers Quotient of Powers am · an = *Add exponents when you have multiplication with the same base Quotient of Powers For any real number a = 0, = am – n *subtract exponents when you have division with the same base am+n
amn ambm Power of a Power (am)n = *Multiply exponents when you have a power to a power Power of a Product (ab)m= *Distribute the exponents when you have a multiplication problem to a power amn ambm
1 Power of a Quotient Zero Power * distribute the exponent to both numerator and denominator, then use other property rules to simplify Zero Power a0 = * any number with the exponent zero = 1 1
Examples 1. 52 ∙ 56 2. -3y ∙ -9y4 3. (4x3y2)(-5y3x) 4. 597,6520
5. (29m)0 + 70 6. 54a7b10c15 -18a2b6c5 (3yz5)3 8. 8r4 2r-4
9. y-7y 13. 30 – 3t0 y8 10. 4x0 + 5 14. (2-2 x 4-1)3 11. x-7y-2 x2y2 12. (6xy2)-1
6.2 Operations with Polynomials Polynomial: A monomial or a sum of monomials Remember a monomial is a number, a variable, or the product of a number and one or more variables
Rules for polynomials Degree of a polynomial = the highest exponent of all the monomial terms Adding and Subtracting = combine like terms Multiplying = Distribute or FOIL
Examples 1. (3x2-x+2) + (x2+4x-9) 2. (9r2+6r+16) – (8r2+7r+10) 3. (p+6)(p-9)
4. 4a(3a2+b) 5. (3b-c)2 6. (x2+xy+y2)(x-y)
6.3 Dividing Polynomials When dividing by a monomial: Divide each term by the denominator separately 1. 2.
Dividing by a polynomial Long Division: rewrite it as a long division problem 1. 2.
Dividing by a polynomial Synthetic Division Step 1: Write the terms of the dividend so that the degrees of the terms are in descending order. Then write just the coefficients. Step 2: Write the constant r of the divisor x – r to the left. Bring the first coefficient down. Step 3: Multiply the first coefficient by r . Write the product under the second coefficient. Then add the product and the second coefficient. Step 4: Multiply the sum by r. Write the product under the next coefficient and add. Repeat until finished. Step 5: rewrite the coefficient answers with appropriate x values
ex 1: Use synthetic division to find (x3 – 4x2 + 6x – 4) ÷ (x – 2). Step 1 Step 2 Step 3 1 - 4 6 - 4 1 x3 – 4x2 + 6x – 4 2 - 4 - 4 1 - 4 6 - 4 - 2 2 - 8 8 x - 5 x2 – 2x + 2 – 1 – 4 6 – 4 1
Use synthetic division to solve each problem 2. 3.
6.4 Polynomial Functions Polynomial in one variable : A polynomial with only one variable Leading coefficient: the coefficient of the term with the highest degree in a polynomial in one variable Polynomial Function: A polynomial equation where the y is replaced by f(x)
State the degree and leading cofficient of each polynomial, if it is not a polynomial in one variable explain why. 1. 7x4 + 5x2 + x – 9 2. 8x2 + 3xy – 2y2 3. 7x6 – 4x3 + x-1 4. ½ x2 + 2x3 – x5
Evaluating Functions Evaluate f(x) = 3x2 – 3x +1 when x = 3 Find f(b2) if f(x) = 2x2 + 3x – 1 Find 2g(c+2) + 3g(2c) if g(x) = x2 - 4
End Behavior Describes the behavior of the graph f(x) as x approaches positive infinity or negative infinity. Symbol for infinity
End behavior Practice f(x) - as x + f(x) - as x -
End Behavior Practice f(x) + as x + f(x) - as x -
End Behavior Practice f(x) + as x + f(x) + as x -
The Rules in General
To determine if a function is even or odd Even functions: arrows go the same direction Odd functions: arrows go opposite directions To determine if the leading coefficient is positive or negative If the graph goes down to the right the leading coefficient is negative If the graph goes up to the right then the leading coeffiecient is positive
The number of zeros Critical Points zeros are the same as roots: where the graph crosses the x-axis The number of zeros of a function can be equal to the exponent or can be less than that by a multiple of 2. Example a quintic function, exponent 5, can have 5, 3 or 1 zeros To find the zeros you factor the polynomial Critical Points points where the graph changes direction. These points give us maximum and minimum values Relative Max/Min
Put it all together For the graph given Describe the end behavior Determine whether it is an even or an odd degree Determine if the leading coefficient is positive or negative State the number of zeros
Cont… For the graph given Describe the end behavior Determine whether it is an even or an odd degree Determine if the leading coefficient is positive or negative State the number of zeros
For the graph given Describe the end behavior Determine whether it is an even or an odd degree Determine if the leading coefficient is positive or negative State the number of zeros
For the graph given Describe the end behavior Determine whether it is an even or an odd degree Determine if the leading coefficient is positive or negative State the number of zeros
6.5 Analyze Graphs of Polynomial Functions Location Principle: used to find the numbers between which you find the roots/zeros Make a table to sketch the graph Estimate and list the location of all the real zeros Zeros are between # and #
Relative Maximum and Minimum: the y-coordinate values at each turning point in the graph of a polynomial. *These are the highest and lowest points in the near by area of the graph At most each polynomial has one less turning point than the degree
Find the location of all possible real zeros Find the location of all possible real zeros. Then name the relative minima and maxima as well as where they occur Ex 1. f(x) = x3 – x2 – 4x + 4
Find the location of all possible real zeros Find the location of all possible real zeros. Then name the relative minima and maxima as well as where they occur Ex 2. f(x) = x4 – 7x2 + x + 5
6.9 Rational Zero Theorem Parts of a polynomial function f(x) Factors of the leading coefficient = q Factors of the constant = p Possible rational roots =
Ex 1: List all the possible rational zeros for the given function a. f(x) = 2x3 – 11x2 + 12x + 9 b. f(x) = x3 - 9x2 – x +105
Finding Zeros of a function After you find all the possible rational zeros use guess and check along with synthetic division to find a number that gives you a remainder of 0! Then factor and or use the quadratic formula with the remaining polynomial to find any other possible zeros
Find all the zeros of the given function f(x) = 2x4 - 5x3 + 20x2 - 45x + 18
Ex 2: Find all the zeros of the given function f(x) = 9x4 + 5x2 - 4
The volume of a rectangular solid is 1001 in3 The volume of a rectangular solid is 1001 in3. The height of the box is x – 3 in. The width is 4 in more than the height, and the length is 6 in more than the height. Find the dimensions of the solid.
The volume of a rectangular solid is 675 cm3 The volume of a rectangular solid is 675 cm3. The width is 4 cm less than the height, and the length is 6cm more than the height. Find the dimensions of the solid.