please answer all questions For the function f(x). find the maximum number of real zeros, the...
For the function f(x)=x" - 6x + 7x-2, state: a) the maximum number of real zeros that the function can have: b) the maximum number of x-intercepts that the graph of the function can have; and c) the maximum number of turning points that the graph of the function can have. The function f(x)=x" - 6x + 7x-2 has a maximum of real zeros. The function f(x)=x" - 6x®,+ 7x-2 has a maximum of x-intercepts. The function f(x)=x" - 6x...
For the function f(x), find the maximum number of real zeros, the maximum number of intercepts, and the maximum number of turning points that the function can have (x) = -6x-2 10x) has a maximum of real zoros f(x) has a maximum of x-intercepts x) has a maximum of tuming points
For the function fx), find the maximum number of real zeros, the maximum number of x-intercepts, and the maximum number of turning points that the function can have. has a maximum of f) has a maximum of x) has a maximum of real 2008 x-intercepts. turning points
Consider the following polynomial function. f(x) = – 8x10 + 2 (a) Determine the maximum number of turning points of the graph of the function. (b) Determine the maximum number of real zeros of the function. Consider the following polynomial function. f(x) = 6x5 + 3x4 + 5 (a) Determine the maximum number of turning points of the graph of the function. turning point(s) (b) Determine the maximum number of real zeros of the function. Consider the following polynomial function....
Consider the following polynomial function. f(x) = – 8x10 + 2 (a) Determine the maximum number of turning points of the graph of the function. (b) Determine the maximum number of real zeros of the function. Consider the following polynomial function. f(x) = 6x5 + 3x4 + 5 (a) Determine the maximum number of turning points of the graph of the function. turning point(s) (b) Determine the maximum number of real zeros of the function. Consider the following polynomial function....
Given f (x) = x4 + 5x3 – 24x2, find all real zeros off and determine whether the multiplicity of each zero is even or odd. Then determine the maximum number of turning points of the graph off.
Tell the maximum number of zeros that the polynomial function may have. Then use Descartes' Rule of Signs to determine how many positive and how many negative zeros the polynomial function may have. Do not attempt to find the zeros. f(x) = - 8x2 – 3x² + x + 3 What is the maximum number of zeros this polynomial function can have? How many positive real zeros can the function have? (Use a comma to separate answers as needed.) How...
Consider the following. g(x) = 3x(x2 - 4x – 2) (a) Find all real zeros of the polynomial function. (Enter your answers as a comma-separated list. If there is no solution, enter NO SOLUTION.) 0, x= 2 +V6 , x = 2 – V6 x X = (b) Determine whether the multiplicity of each zero is even or odd. smallest x-value even multiplicity even multiplicity largest x-value even multiplicity (c) Determine the maximum possible number of turning points of the...
9. Given f(x) = 2x4 - 15x + 3x2 - 14x + 25, determine all of the possible rational zeros of f(x) by filling in the appropriate information below. [5 Points] p: +{ q: +{ Possible Rational Zeros of f(x) Max Number of Real Zeros: Max Number of Turning Points: x2+x-12 10. Use the rational function R(x) = to answer the questions below. [10 Points) x2-16 For parts (a-c) determine the equation of each asymptote if it exists. For part...
Use the rational zeros theorem to find all the real zeros of the polynomial function. Use the zeros to factor f over the real numbers. f(x)= x^4+10x^3-15x^2-40x+44