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2.2 Polynomial Functions.notebook October 04, 2016 2.2 Polynomial Functions Definition: A polynomial function in one variable has the form f(x) = anxn + an1 xn1 + .... + a 1x1 + a0, where all the exponents are positive integers and the coefficients are real numbers. EXAMPLES: 8x5 6x4 2x2 + x 9 3x4 + 5x When written in descending order: an is the leading coefficient, a0 is the constant, n is the degree of the polynomial Oct 202:38 PM Classify Polynomials by Degree: Degree Name Example 0 1 2 3 4 5 PREVIOUS EXAMPLES: Classify each polynomial by degree. 1. 3x + 9x 2 + 5 2. 2x3 x + 5x4 3. 3 4x5 + 9x2 + 10 Oct 202:38 PM 1 2.2 Polynomial Functions.notebook October 04, 2016 End Behavior of Polynomial Functions Even Degree Polynomials Look at these graphs. What do you observe about the ends if the degree is even? positive leading coefficient negative leading coefficient copyright purplemath.com Oct 202:38 PM End Behavior of Polynomial Functions Odd Degree Polynomials Look at these graphs. What do you observe about the ends if the degree is odd? positive leading coefficient negative leading coefficient copyright purplemath.com Oct 202:38 PM 2 2.2 Polynomial Functions.notebook October 04, 2016 Summary: End Behavior of Polynomial Functions Most important thing to consider: the sign and degree of the leading term. When the leading coefficient is positive, the graph __________________ to the right. When the leading coefficient is negative, the graph __________________ to the right. When the function's degree is odd, the ends go in __________________ directions. When the function's degree is even, the ends go in __________________ directions. Oct 202:38 PM Practice: End Behavior of Polynomial Functions REMEMBER! Most important thing to consider? Example 1. Which of the following could be the graph of a polynomial whose leading term is 3x4 ? copyright purplemath.com Oct 202:38 PM 3 2.2 Polynomial Functions.notebook October 04, 2016 Practice: End Behavior of Polynomial Functions REMEMBER! Most important thing to consider? Example 2. Describe the end behavior of 4x4 + 2x3 x + 7. Example 3. Describe the end behavior of 3x2 + 6x x3 2. Example 4. Describe the end behavior of 3x7 + 5x + 1004. copyright purplemath.com Practice End Behavior Turning Points of Polynomial Functions points where the graph changes direction, the BUMPS. A linear function has no turning point. A quadratic function has only 1 turning point. A cubic function has at most 2 turning points. A quartic function has at most 3 turning points. Summary: A polynomial function has at most _________________ turning points. Turning Points 4 2.2 Polynomial Functions.notebook October 04, 2016 PRACTICE: For each graph, determine the sign of the leading coefficient and the least possible degree of the polynomial function. 1. 2. 3. copyright purplemath.com Mar 78:06 AM EXAMPLES: For each polynomial function, state the degree, describe the end behavior, and sketch the general shape. 1. f(x) = 5 x 2. f(x) = x3 4x 3. f(x) = x4 2x2 + 2 4. f(x) = 4x x2 1 5. f(x) = 3x3 3x x4 3 6. f(x) = 6x + 1 x3 Oct 207:22 PM 5 2.2 Polynomial Functions.notebook October 04, 2016 II. Evaluate Polynomial Function A. Direct Substitution: Substitute the given value of x into the function and find the value of y. EXAMPLES: 2 1. f(x) = 2x + 6x - 8, find f(2). 3 2 2. f(x) = -x + 4x + 37, find f(-3). 2 3. f(x) = x - 5x, find f(-4). 2 4. f(x) = 2x - 5x + 1, find f(¾). Oct 202:38 PM 2.2 Polynomial Functions B. Synthetic Substitution STEPS: EXAMPLE: 3 2 1. f(x) = 5x + 3x - x + 7, find f(2). 1. Write the coefficients in order of descending exponents. Include a coefficient of 0 for any missing term. 2. Write the value for x to the left. 3. Bring down the leading coefficient. 4. Multiply the leading coefficient with the x value to the left. Write the product under the second coefficient. Add. 5. Multiply this sum with the x value. Write under the third coefficient. Add. 6. Repeat for the remaining coefficents. 7. The final sum is the value of the function at the given value of x. Oct 202:38 PM 6 2.2 Polynomial Functions.notebook October 04, 2016 B. Synthetic Substitution EXAMPLE: 4 3 STEPS: 2. f(x) = -2x - x + 4x - 5 for x = - 1. 1. Write the coefficients in order of descending exponents. Include a coefficient of 0 for any missing term. 2. Write the value for x to the left. 3. Bring down the leading coefficient. 4. Multiply the leading coefficient with the x value to the left. Write the product under the second coefficient. Add. 5. Multiply this sum with the x value. Write under the third coefficient. Add. 6. Repeat for the remaining coefficents. 7. The final sum is the value of the function at the given value of x. Oct 202:38 PM Homework page 99, problems 3-8 all, 9-21 odd, 24-33 all Oct 202:38 PM 7 Attachments Explore Graphs of Common Polynomial Functions.doc
