AC Geo/Adv. A U6 Worksheet 10
Transcription
AC Geo/Adv. A U6 Worksheet 10
AC Geo/Adv. A U6 Worksheet 10 Name_________________________ END BEHAVIOR OF POLYNOMIAL FUNCTIONS Odd degreed functions with a positive leading coefficient The function approaches negative infinity as x approaches negative infinity and the function approaches positive infinity as x approaches positive infinity ( ) ( ) Odd degreed functions with a negative leading coefficient The function approaches positive infinity as x approaches negative infinity and the function approaches negative infinity as x approaches positive infinity ( ) ( ) Even degreed functions with a positive leading coefficient The function approaches positive infinity as x approaches negative infinity and the function approaches positive infinity as x approaches positive infinity ( ) ( ) Even degreed functions with a negative leading coefficient The function approaches negative infinity as x approaches negative infinity and the function approaches negative infinity as x approaches positive infinity ( ) ( ) Describe the end behavior of the graph of the polynomial function by completing the statements. Ex1) Ex3) ( ) Ex2) ( ) ( ) ( ) ( ) ( ) ( ) Ex4) ( ) ( ) ( ) ( ) ( ) The maximum number of turning points is equal to 1 less than the degree of the polynomial. State the degree of the polynomial and the maximum number of turning points of its graph. Ex5) ( ) Ex6) ( ) Ex7) ( ) When you graph a polynomial, the roots of the polynomial are the points where the curved formed by the polynomial cuts the x-axis (the x-intercepts). Ex8) Find the roots of the polynomial a) y = x2 + 14x – 15 b) y= x2 – 25 c) y = x4 +7x3 – 18x2 The multiplicity of a root is the number of times a given polynomial equation has a value as a root. For the polynomial equation ( ) , k is a repeated solution, or a root with a multiplicity greater than 1, if and only if the factor x – k has an exponent greater than 1 when f(x) is factored completely. If the exponent is odd, the graph of f crosses the x-axis at the zero If the exponent is even, the graph of f touches the x-axis at the zero Ex9) Find all of the zeros of the function. Then determine the multiplicity of each zero and the maximum number of turning points of the graph. a) ( ) c) ( ) ( ( ) ) ( ) b) ( ) d) ( ) ) ( ( ( ) )( ) Ex10) Make a rough sketch of the graph using end behavior, zeros, and multiplicity to make it as accurate as possible. ( ) ( ) a) ( ) ( b) ) ( ) ( ) ( ) Complete the statements to describe the end behavior, the maximum number of xintercepts, and the number of turning points of the graphs of the following polynomial functions. 1) ( ) 2) ( ) ( ) ____ as ( ) ____ as ( ) ____ as ( ) ____ as Max # x-intercepts ____ Max # x-intercepts ____ Max # turning points ____ Max # turning points ____ ( ) 3) ( ) 4) ( ) ____ as ( ) ____ as ( ) ____ as ( ) ____ as Max # x-intercepts ____ Max # x-intercepts ____ Max # turning points ____ Max # turning points ____ ( ) 5) ( ) 6) ( ) ____ as ( ) ____ as ( ) ____ as ( ) ____ as Max # x-intercepts ____ Max # x-intercepts ____ Max # turning points ____ Max # turning points ____ ( ) 7) ( ) 8) ( ) ____ as ( ) ____ as ( ) ____ as ( ) ____ as Max # x-intercepts ____ Max # x-intercepts ____ Max # turning points ____ Max # turning points ____ Describe the end behavior of the graph. Then describe the degree and leading coefficient of the polynomial function. 9) 10) ( ) ____ as ( ) ____ as ( ) ____ as ( ) ____ as Degree _____ L.C. ______ Degree _____ L.C. ______ 11) 12) ( ) ____ as ( ) ____ as ( ) ____ as ( ) ____ as Degree _____ L.C. ______ Degree _____ L.C. ______ Find all of the zeros of the function. Then determine the multiplicity of each zero and the exact number of turning points of the graph. 13) ( ) 15) ( ) ( ( )( ) ) 14) ( ) ( )( )( 16) ( ) ( )( ) ) Make a rough sketch of the graph using end behavior, zeros, and multiplicity to make it as accurate as possible. 17) ( ) ( ) ( )( ) 18) ( ) ( ) ( ) 19) ( ) ( ) 21) ( ( ) ( ) 23) ( ) ( ) )( ( ( ) ) ( )( 20) ( ) ( ) ) ) 22) ( ( ) ( ) 24) ( ) ( ) )( ( ( ) ) ) ( ) 25) ( ) ( ) 27) ( ) ( ) ( ( 26) ) ) ( ) ( ) ( ) 28) ( ) ( ) ( ( )( )( ) )