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Warm Up

Evaluate and Graph Polynomial Functions. Warm Up. Lesson Presentation. Lesson Quiz. Warm-Up. Evaluate the expression when x = – 4. 2. – 3 x 3 – 2 x 2 + 10. 1. x 2 + 5 x. 170. – 4. ANSWER. ANSWER.

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Warm Up

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  1. Evaluate and Graph Polynomial Functions Warm Up Lesson Presentation Lesson Quiz

  2. Warm-Up Evaluate the expression when x=–4. 2.–3x3 – 2x2 + 10 1.x2 + 5x 170 –4 ANSWER ANSWER 3. The expressionx2 –4represents the amount of matting in square inchesthat is needed to mat a picture. How much matting is needed ifx=6? 32 in.2 ANSWER

  3. 1 a. h (x) = x4 – x2 + 3 Example 1 Decide whether the function is a polynomial function.If so, write it in standard form and state its degree, type, and leading coefficient. 4 SOLUTION a. The function is a polynomial function that is already written in standard form. It has degree 4 (quartic) and a leading coefficient of 1.

  4. b. The function is a polynomial function written as g(x) = πx2 + 7x – 3 in standard form. It has degree 2(quadratic) and a leading coefficient of π. b. g (x) = 7x – 3 + πx2 Example 1 Decide whether the function is a polynomial function.If so, write it in standard form and state its degree, type, and leading coefficient. SOLUTION

  5. Example 1 Decide whether the function is a polynomial function.If so, write it in standard form and state its degree, type, and leading coefficient. c. f (x) = 5x2 + 3x –1– x SOLUTION c. The function is not a polynomial function because the term 3x – 1 has an exponent that is not a whole number.

  6. Example 1 Decide whether the function is a polynomial function.If so, write it in standard form and state its degree, type, and leading coefficient. d. k (x) = x + 2x– 0.6x5 SOLUTION d. The function is not a polynomial function because the term 2xdoes not have a variable base and an exponent that is a whole number.

  7. Example 2 Use direct substitution to evaluatef (x) = 2x4 – 5x3 –4x + 8whenx = 3. f (x) = 2x4 –5x3 – 4x+ 8 Write original function. f (3) = 2(3)4 – 5(3)3 – 4(3) + 8 Substitute 3 for x. = 162 – 135 – 12 + 8 Evaluate powers and multiply. = 23 Simplify

  8. Guided Practice Decide whether the function is a polynomial function. If so, write it in standard form and state its degree, type, and leading coefficient. 1. f (x) = 13 – 2x ANSWER polynomial function; f (x) = –2x + 13;degree 1, type: linear, leading coefficient: –2

  9. Guided Practice 2. p (x) = 9x4 – 5x – 2 + 4 ANSWER not a polynomial function 3. h (x) = 6x2 + π – 3x ANSWER polynomial function; h(x) = 6x2 – 3x + π;degree 2, type: quadratic, leading coefficient: 6

  10. Guided Practice Use direct substitution to evaluate the polynomial function for the given value of x. 4. f (x) = x4 + 2x3 + 3x2 – 7; x = –2 ANSWER 5 5. g(x) = x3– 5x2 + 6x + 1; x = 4 ANSWER 9

  11. Write the coefficients of f (x) in order of descending exponents. Write the value at which f (x) is being evaluated to the left. STEP 1 Example 3 Use synthetic substitution to evaluate f (x) from Example2 when x = 3.f (x) = 2x4 – 5x3 –4x + 8 SOLUTION

  12. STEP 2 Bring down the leading coefficient. Multiply the leading coefficient by the x-value. Write the product under the second coefficient. Add. Example 3

  13. Synthetic substitution gives f(3) = 23, which matches the result in Example 2. ANSWER STEP 3 Multiply the previous sum by the x-value. Write the product under the third coefficient. Add. Repeat for all of the remaining coefficients. The final sum is the value of f(x) at the given x-value. Example 3

  14. ANSWER The correct answer is D. Example 4 From the graph, f (x)→ –∞ as x→ –∞ and f (x)→ –∞ as x→ +∞. So, the degree is even and the leading coefficient is negative.

  15. ANSWER degree: odd, leading coefficient: negative Guided Practice Use synthetic substitution to evaluate the polynomial function for the given value of x. 6. f(x) = 5x3 + 3x2–x + 7;x = 2 7. g (x) = –2x4–x3 + 4x – 5;x = –1 ANSWER 57 –10 ANSWER 8. Describe the degree and leading coefficient of thepolynomial function whose graph is shown.

  16. To graph the function, make a table of values and plot the corresponding points. Connect the points with a smooth curve and check the end behavior. a. Example 5 Graph (a)f (x) = –x3 + x2 + 3x – 3 and (b)f (x) = x4 – x3 – 4x2 + 4. SOLUTION The degree is odd and leading coefficient is negative. So, f (x) → +∞ asx → –∞ andf (x) → –∞ asx → +∞.

  17. b. To graph the function, make a table of values and plot the corresponding points. Connect the points with a smooth curve and check the end behavior. Example 5 The degree is even and leading coefficient is positive. So, f (x) → +∞asx → –∞and f (x) → +∞asx → +∞.

  18. Physical Science The energy E (in foot-pounds) in each square foot of a wave is given by the model E = 0.0029s4 where sis the wind speed (in knots). Graph the model. Use the graph to estimate the wind speed needed to generate a wave with 1000 foot-pounds of energy per square foot. Example 6

  19. Example 6 SOLUTION STEP 1 Make a table of values. The model onlydeals with positive values of s. Plot the points and connect them with a smooth curve. Because the leading coefficient is positive and the degree is even, the graph rises to the right. STEP 2

  20. STEP 3  Examine the graph to see that s 24 when E = 1000. The wind speed needed to generate the wave is about 24 knots. ANSWER Example 6

  21. Guided Practice Graph the polynomial function. 9. f(x) = x4 + 6x2 – 3 10. f(x) = –x3 + x2 + x – 1

  22. Guided Practice Graph the polynomial function. 11. f(x) = 4 – 2x3

  23. 12. WHAT IF? If wind speed is measured in miles per hour, the model in Example 6 becomes E = 0.0051s4. Graph this model. What wind speed is needed to generate a wave with 2000 foot-pounds of energy per square foot? ANSWER about 25 mi/h. Guided Practice

  24. ANSWER no 71 ANSWER Lesson Quiz 1. Tell whether the function f(x) = –3x3 – 5x–1 + 8is a polynomial function. If so, write it in standard form and state its degree, type, and leading coefficient. 2. Use synthetic substitution to evaluate f(x) =4x4 – x3 + 3x2 + 5x – 3when x =–2

  25. ANSWER 45,560 Lesson Quiz 3. The estimated number of electric vehicles V in the United States from 1995 to 2004 is given by the equationV = 10x4 + 200x + 3000, wherexis the number of years since 1995. Graph the model. Use it to estimate the number of electric Vehicles in 2003.

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