Math 2 3-2 Zeroes & Factors of Polynomials – Part 2 Name ________________________ I understand the relationship between standard and factored forms of polynomials Equivalent Expressions for Polynomial Functions Without using a calculator, answer the following questions about the function g x x 2 2 x 3 1.) What is the factored form of g x ? 2.) What are the zeros of g x ? 3.) Sketch a graph of g x . Label the maximum/minimum and y-intercept. Consider the function f x 2 x4 5x3 26 x2 41x 60 . How many of the above questions can you answer about f x ? 4. The function f x can be written as f x x 3 x 4 x 1 2 x 5 Find the zeros of f x . Sketch a possible graph of f x below. Zeros: Producing Useful Equivalent Expressions Expressing cubic, quartic, and higher degree polynomials in factored form is a challenging problem. For example, the function f x x5 15x4 85x3 225x2 274 x 120 can be written as f x x 1 x 2 x 3 x 4 x 5 Could you have found the linear factors on your own? This problem interested mathematicians for many centuries, and they developed a variety of special techniques for finding factors of polynomials with integer coefficients. With the development of modern computational tools, those formal techniques are now less important than they once were. However, both modern and ancient methods rely on the relationship between factors and zeros that you know well for quadratic polynomials. 5. The graph to the right is of the cubic polynomial a. Use the graph to find the zeros of c x . b. Use the zeroes to write c x in factored form. c. Expand your answer to part (b) and show that your form is equivalent to the above given equation. 6. a. Following the strategy you developed in problem (5), write the below polynomials in factored form. You will need to graph the equations on your calculator. When everyone is done, we will check them on the WolframAlpha website http://www.wolframalpha.com/ f x x3 9 x2 11x 21 b. g x x4 4x3 52 x2 112 x 384 Sketch of Graph Factored Form f x c. h x x5 4x4 4x3 22x2 3x 18 Sketch of Graph Factored Form g x d. k t 2t 4 4t 3 22t 2 24t 72 Sketch of Graph Sketch of Graph Factored Form Factored Form h x k t e. Look at your factored form for parts (c) and (d). Think about how you expanded the polynomial in problem (5c) into standard form. Thinking about that expansion, without actually having to expand the entire function in parts (c) and (d), find the degree of the functions that you wrote in factored form. Is it the same as the degree of the original function? If not, how do you need to adjust the factored form so that it has the same degree as the original? f. Look at your factored form for parts (c) and (d). What is the leading coefficient of the original function? Will that be the leading coefficient of the factored form if it were to be expanded? If not, adjust your factored form so it will have the correct leading coefficient. STOP: Write a short summary of what you have learned in problems 5 and 6. Refer to your learning goal to write your summary!! To write the equation of a polynomial is factored form . . . special cases are. . . . Your work thus far has showed you that using the zeroes of a polynomial function helps in writing a rule for the function as a product of linear factors. But that rule might need some adjustment to make it match the function exactly. For each of the following functions: Use the information about zeros to write a preliminary factored form of the rule Use your calculator to compare tables and graphs produced by the factored form and standard form rules. Adjust the factored form in a way that makes it equivalent to the standard form 7a. 2 1 f x 6x3 5x2 3x 2 has zeroes of x , , and 1 3 2 7b. 2 f x 5x3 18x2 7 x 6 has zeroes of x , 3, and 1 5 7c. 2 7 f x 6 x3 17 x2 14 x has zeroes of x 0, , and 3 2 STOP: Write a short summary of what you have learned in problem 7. Refer to your learning goal to write your summary!! 8. An important characteristic that is used to describe a polynomial function is the number of zeroes. For 3 example, the polynomial function f x x 1 x 2 x 1 x 1 x 1 x 2 is said to have a zero of multiplicity 3 at x 1 and a zero of multiplicity 1 at x 2 . The shape of the graph of a polynomial function near a zero provides information about the possible multiplicity of the zero. a. Graph the polynomial function f x x 3 for different positive integer values of n. Examine n the behavior of each graph near x 3 . What appears to be true about the behavior of a polynomial function near a zero of multiplicity n? b. Test your conjecture in part (a) by considering the zeroes of the polynomial function 2 3 g x x 3 x 1 x 1 . Revise your answer to part (a) if necessary. 9. Examine the graph of y h x at the right. The scale on both axes is 1. Find an equation for h x if h 1 3 . This graph has been stretched/compressed, so it should have a k value!! 10. Find the equation of the below graph given that g (1) 24 SUMMARY: What is the relationship between standard form and factored form of a polynomial? Your answer should have several parts – summarizing what we learned in this investigation cannot be done in one or two phrases!!