Consider the function f(x) = 2x 4 − x. i. Find all relative extrema (i.e. maxima...

Consider the function f(x)=ln(x2 +4)[6+6+8=16 marks] Note: f'(x) = 2x divided by (x2 +4) f''(x )...

Consider the function f(x)=ln(x2 +4)[6+6+8=16 marks] Note: f'(x) = 2x divided by (x2 +4) f''(x ) = 2(4-x2) divided by (x2+4)2 (I was unable to put divide sign) a) On which intervals is increasing or decreasing? b) On which intervals is concave up or down? c) Sketch the graph of f(x) Label any intercepts, asymptotes, relative minima, relative maxima and inflection points.

Consider the function f(x)=ln(x2 +4)[6+6+8=16 marks] Note: f'(x) = 2x divided by (x2 +4) f''(x )...

Consider the function f(x)=ln(x2 +4)[6+6+8=16 marks] Note: f'(x) = 2x divided by (x2 +4) f''(x ) = 2(4-x2) divided by (x2+4) (I was unable to put divide sign) a) On which intervals is increasing or decreasing? b) On which intervals is concave up or down? c) Sketch the graph of below. Label any intercepts, asymptotes, relative minima, relative maxima and inflection points. .

(a) Using the second derivative test, find the relative/local extrema (maxima and minima) of the function...

(a) Using the second derivative test, find the relative/local extrema (maxima and minima) of the function f(x) = −x 3 − 6x to the power of 2 − 9x − 2.

3 parts use these answers/rules Find the relative extrema of the function Specifically: The relative maxima...

3 parts use these answers/rules Find the relative extrema of the function Specifically: The relative maxima of f occur at x = The relative minima of f occur at x = The value of f at its relative minimum is the value of f at its relative maximum is Notes: Your answer should be a comma-separated list of values or the word "none". part 1) f(x)=x^2+6x+5 part 2) f(x)= x^3-18x+5 part 3) f(x)=8x^4−4x^2+8

Consider the function f(x)= x3 x2 − 4 Express the domain of the function in interval...

Consider the function f(x)= x3 x2 − 4 Express the domain of the function in interval notation: Find the y-intercept: y= . Find all the x-intercepts (enter your answer as a comma-separated list): x= . On which intervals is the function positive? On which intervals is the function negative? Does f have any symmetries? f is even;f is odd;    f is periodic;None of the above. Find all the asymptotes of f (enter your answers as equations): Vertical asymptote (left): ; Vertical...

For the function f(x) =x(x−4)^3 • Find all x-intercepts and find the y-intercept • Find all...

For the function f(x) =x(x−4)^3 • Find all x-intercepts and find the y-intercept • Find all critical numbers, • Determine where the function is increasing and where it is decreasing, • Find and classify the relative extrema, • Determine where the function is concave up and where it is concave down, • Find any inflection points, and Use this information to sketch the graph of the function. • Use this information to sketch the graph of the function.

Let f(x)=6x^2−2x^4. Find the open intervals on which f is increasing (decreasing). Then determine the x-coordinates...

Let f(x)=6x^2−2x^4. Find the open intervals on which f is increasing (decreasing). Then determine the x-coordinates of all relative maxima (minima). 1.   f is increasing on the intervals 2.   f is decreasing on the intervals 3.   The relative maxima of f occur at x = 4.   The relative minima of f occur at x =

Find the local maxima and minima values for the function f(x)= e^(x^5-x^4-2x^3+x^2-1)

Find the local maxima and minima values for the function f(x)= e^(x^5-x^4-2x^3+x^2-1)

Consider the function f(x) = −x3 + 4x2 + 7x + 1. (a) Use the first...

Consider the function f(x) = −x3 + 4x2 + 7x + 1. (a) Use the first and second derivative tests to determine the intervals of increase and decrease, the local maxima and minima, the intervals of concavity, and the points of inflection. (b) Use your work in part (a) to compute a suitable table of x-values and corresponding y-values and carefully sketch the graph of the function f(x). In your graph, make sure to indicate any local extrema and any...

Analyze and sketch the graph of the function f(x) = (x − 4)2/3 (a) Determine the...

Analyze and sketch the graph of the function f(x) = (x − 4)2/3 (a) Determine the intervals on which f(x) is increasing / decreasing (b) Determine if any critical values correspond to a relative maxima / minima (c) Find possible inflection points (d) Determine intervals where f(x) is concave up / down