Determine the number of possible negative or positive real
f(x)= -17x7-7x5-6x3+4x2+6x+5
Determine the number of possible negative or positive real f(x)= -17x7-7x5-6x3+4x2+6x+5
Determine the different possibilities for the numbers of positive, negative, and nonreal complex zeros for the following function. f(x) = 3x2 - 6x² + 3x + 9 What is the possible number of positive real zeros of this function? (Use a comma to separate answers as needed.) What is the possible number of negative real zeros of this function? (Use a comma to separate answers as needed.) What is the possible number of nonreal complex zeros? (Use a comma to...
Find the derivative of 6x3 - 2x + 1 f (2) [In other notation: f(x) = (6x^3 -2x +1) 7 x^(1/3)] (Simplify your answer as much as possible.) If your answer does not look like any of the four below, try choosing a number for x and plug it into your answer. Then plug that same number into each of the four answers to see which one matches. 1 1671 +- c 3 0 6x3 - 2x3 + x o...
3. Given f(x) = 4x2 + 6x + 8 and h(x) = 6e*, find (hºf)(x), state its domain, then simplify if possible.
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...
Determine the different possibilities for the numbers of positive, negative, and nonreal complex zeros for the following function f(x) = - 4x + 8x² - 4x - 5 What is the possible number of positive real zeros of this function? (Use a comma to separate answers as needed.) What is the possible number of negative real zeros of this function? (Use a comma to separate answers as needed) What is the possible number of nonreal complex zeros? (Use a comma...
Determine the different possibilities for the numbers of positive, negative, and nonreal complex zeros for the following function. f(x) = 4x3 - 5x² + 4x + 7 What is the possible number of positive real zeros of this function? (Use a comma to separate answers as needed.)
Given a real number x and a positive integer k, determine the number of multiplications used to find x^(2^i) starting with x and successively squaring ( to find x^2, x^4 and so on). Is this a more efficient way to find x^(2^i) than by multiplying x by itself the appropriate number of times? Give the C++ code to work this problem, if possible with recursion, if not explain why?
Question 15 (5 points) Determine the domain and the range of the function. f(x) = 4x2 - X-3 A
Suppose the polynomial f (x) has the following end behavior: as x approaches infinity, f(x) approaches infinity, and as x approaches negative infinity, f (x) approaches negative infinity. Which of the following polynomials could represent f(x)? There may be more than one correct answer. Select all correct answers. 0-23 0-2x3 - #3 - 4x 7x5 + 4x2 0x2 + x - 3 Ox+8 x3 + 10x2 – 5x + 5
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