Create a function and determine the exact limit at a specific value for x by using...

1.Determine whether the intermediate value theorem guarantees that the function has a zero on the given...

1.Determine whether the intermediate value theorem guarantees that the function has a zero on the given interval. f (x) = x3 - 8x2 + 14x + 9; [1, 2] yes or no? 2. Use synthetic division and the remainder theorem to determine if [x-(3-2i)] is a factor of f(x)=x2-6x+13 yes or no? 3. Use the factor theorem to determine if the given binomial is a factor of f (x). f (x) = x4+ 8x3+ 11x2 - 11x + 3; x...

When finding the limit of a function, the limit ________________ a specific value for the function....

When finding the limit of a function, the limit ________________ a specific value for the function. A. is greater than B. equals C. approaches D. is less than If the left hand limit and the right hand limit do not equal each other, the limit __________________. A. does not exist B. exists and is equal to 1 C.exists and is equal to 10 A. is zero

Given the rational function h(x) = (x^3 +5x^2-2x-24)/(x^2-9), find the following information a. Use your knowledge...

Given the rational function h(x) = (x^3 +5x^2-2x-24)/(x^2-9), find the following information a. Use your knowledge of polynomials to factor the numerator and the denominator of h(x) to rewrite the function in a different form. b. Use long division to find the quotient and the remainder to rewrite h(x) in a different form. c. What is the woman of h? d. Identify the vertical asymptotes. e. Determine the exact location of any removable discontinuity if one exists.

A)Determine if the function g(x) = 2(x^14)^1/15 satisfies the mean value theorem over the interval [-70,70]...

A)Determine if the function g(x) = 2(x^14)^1/15 satisfies the mean value theorem over the interval [-70,70] B) Find and classify all extrema and inflection points of f(x) = cos^4(x) over the interval (-6,6). C) Determine 2 real numbers with difference of 70 and maximum product.

If cos(x)=1/6 and x is in quadrant I, determine the exact value of each of the...

If cos(x)=1/6 and x is in quadrant I, determine the exact value of each of the following. Use fractions and radicals only, no decimals. a. sin(x/2)= b. cos(x/2)= c. tan(x/2)=

sketch a neat, piecewise function with the following instruction: 1. as x approach infinity, the limit...

sketch a neat, piecewise function with the following instruction: 1. as x approach infinity, the limit of the function approaches an integer other than zero. 2. as x approaches a positive integer, the limit of the function does not exist. 3. as x approaches a negative integer, the limit of the function exists. 4. Must include one horizontal asymtote and one vertical asymtote.

1. Determine all value(s) of  x=c guaranteed to exist by the Mean Value Theorem for the function  f(x)=x3+8x2−6x+...

1. Determine all value(s) of  x=c guaranteed to exist by the Mean Value Theorem for the function  f(x)=x3+8x2−6x+ 27 restricted to the closed interval [−2,1] 2. Explain what your answer found in part a means using the words "secant" and "tangent"

For the function, do the following. f(x) = 1 x   from  a = 1  to  b = 2. (a)...

For the function, do the following. f(x) = 1 x   from  a = 1  to  b = 2. (a) Approximate the area under the curve from a to b by calculating a Riemann sum using 10 rectangles. Use the method described in Example 1 on page 351, rounding to three decimal places. square units (b) Find the exact area under the curve from a to b by evaluating an appropriate definite integral using the Fundamental Theorem.   square units

Consider the following function. f(x) = x4 ln(x) a.) Use l'Hospital's Rule to determine the limit...

Consider the following function. f(x) = x4 ln(x) a.) Use l'Hospital's Rule to determine the limit as x → 0+ b.) Use calculus to find the minimum value. c.) Find the interval where the function is concave down. (Enter your answer in interval notation.)

To illustrate the Mean Value Theorem with a specific function, let's consider f(x) = x^3 −...

To illustrate the Mean Value Theorem with a specific function, let's consider f(x) = x^3 − x, a = 0, b = 5. Since f is a polynomial, it is continuous and differentiable for all x, so it is certainly continuous on [0, 5] and differentiable on (0, 5). Therefore, by the Mean Value Theorem, there is a number c in (0, 5) such that f(5) − f(0) = f '(c)(5 − 0). Now f(5) = ______ , f(0) =...