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Welcome: Pass out Zeros of Higher Polynomials WKS.

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Presentation on theme: "Welcome: Pass out Zeros of Higher Polynomials WKS."— Presentation transcript:

1 Welcome: Pass out Zeros of Higher Polynomials WKS

2 HW Key: p. 212: 60, 62 (even)

3 Intermediate Value Theorem

4 Objectives & HW: The students will be able to apply the Intermediate Value Theorem in determining if there is a zero between two given values of x and in approximating that zero. HW: Intermediate Value Theorem Problems (back of notesheet)

5 The Intermediate Value Theorem
3.6 Topics on the Theory of Polynomial Functions (1) The Intermediate Value Theorem The Intermediate Value Theorem for Polynomials Let P(x) be a polynomial function with real coefficients. If P (a) and P (b) have opposite signs, then there is at least one value of c between a and b for which P (c) = 0. Equivalently, the equation P (x) = 0 has at least one real root between a and b.

6 EXAMPLE: Approximating a Real Zero
3.6 Topics on the Theory of Polynomial Functions (1) EXAMPLE: Approximating a Real Zero a. Show that the polynomial function f (x) = x3 - 2x - 5 has a real zero between 2 and 3. b. Use the Intermediate Value Theorem to find an approximation for this real zero to the nearest tenth. a. Let us evaluate f (x) at 2 and 3. If f (2) and f (3) have opposite signs, then there is a real zero between 2 and 3. Using f (x) = x3 - 2x - 5, we obtain Solution This sign change shows that the polynomial function has a real zero between 2 and 3. and f (3) = * = = 16. f (3) is positive. f (2) = * = = -1 f (2) is negative. more

7 EXAMPLE: Approximating a Real Zero (cont.)
3.6 Topics on the Theory of Polynomial Functions (1) EXAMPLE: Approximating a Real Zero (cont.) a. Show that the polynomial function f (x) = x3 - 2x - 5 has a real zero between 2 and 3. b. Use the Intermediate Value Theorem to find an approximation for this real zero to the nearest tenth. Solution b. A numerical approach is to evaluate f at successive tenths between 2 and 3, looking for a sign change. This sign change will place the real zero between a pair of successive tenths. Use the table function (2nd Window) of your calculator and set TblStart to 2 and ΔTbl to .1. Look at the table values (2nd Graph) and scroll down until you see a sign change. X Y1 2 -1 2.1 0.061 Sign change Sign change The sign change indicates that f has a real zero between 2 and 2.1. more

8 EXAMPLE: Approximating a Real Zero (cont.)
3.6 Topics on the Theory of Polynomial Functions (1) EXAMPLE: Approximating a Real Zero (cont.) a. Show that the polynomial function f (x) = x3 - 2x - 5 has a real zero between 2 and 3. b. Use the Intermediate Value Theorem to find an approximation for this real zero to the nearest tenth. Solution b. We now follow a similar procedure to locate the real zero between successive hundredths. Use the table function (2nd Window) of your calculator and set TblStart to 2 and ΔTbl to Look at the table values (2nd Graph) and scroll down until you see a sign change. f (2.00) = -1 f (2.04) = f (2.08) = f (2.01) = f (2.05) = f (2.09) = f (2.02) = f (2.06) = f (2.1) = 0.061 f (2.03) = f (2.07) = Sign change The sign change indicates that f has a real zero between 2.09 and Correct to the nearest tenth, the zero is 2.1.

9 You Try!!! Approximating a Real Zero
3.6 Topics on the Theory of Polynomial Functions (1) You Try!!! Approximating a Real Zero a. Show that the polynomial function f (x) = 3x2 - 2x - 6 has a real zero between 1 and 2. b. Use the Intermediate Value Theorem to find an approximation for this real zero to the nearest tenth. a. Let us evaluate f (x) at 1 and 2. If f (1) and f (2) have opposite signs, then there is a real zero between 1 and 2. Using f (x) = 3x3 - 2x - 5, we obtain Solution This sign change shows that the polynomial function has a real zero between 1 and 2. and f (2) = 3* * = = 2. f (2) is positive. f (1) = 3* * = = -5 f (1) is negative. more

10 EXAMPLE: Approximating a Real Zero (cont.)
3.6 Topics on the Theory of Polynomial Functions (1) EXAMPLE: Approximating a Real Zero (cont.) a. Show that the polynomial function f (x) = 3x2 - 2x - 6 has a real zero between 1 and 2. b. Use the Intermediate Value Theorem to find an approximation for this real zero to the nearest tenth. Solution b. A numerical approach is to evaluate f at successive tenths between 1 and 2, looking for a sign change. This sign change will place the real zero between a pair of successive tenths. Use the table function (2nd Window) of your calculator and set TblStart to 1 and ΔTbl to .1. Look at the table values (2nd Graph) and scroll down until you see a sign change. X Y1 1.7 -0.73 1.8 0.12 Sign change Sign change The sign change indicates that f has a real zero between 1.7 and 1.8. more

11 EXAMPLE: Approximating a Real Zero (cont.)
3.6 Topics on the Theory of Polynomial Functions (1) EXAMPLE: Approximating a Real Zero (cont.) a. Show that the polynomial function f (x) = 3x2 - 2x - 6 has a real zero between 1 and 2. b. Use the Intermediate Value Theorem to find an approximation for this real zero to the nearest tenth. Solution b. We now follow a similar procedure to locate the real zero between successive hundredths. Use the table function (2nd Window) of your calculator and set TblStart to 1 and ΔTbl to Look at the table values (2nd Graph) and scroll down until you see a sign change. f (1.70) = -0.73 f (1.74) = f (1.78) = f (1.71) = f (1.75) = f (1.79) = f (1.72) = f (1.76) = f (1.80) = 0.12 f (1.73) = f (1.77) = Sign change The sign change indicates that f has a real zero between 1.78 and Correct to the nearest tenth, the zero is 1.8.

12 You may start on your HW. (back of notesheet)

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