Consider the graph y=x^3+3x^2-24x+10 Determine: a) interval(s) on which it is increasing b) interval(s) on which...

Consider the graph y=6x^(1/5)+x^(6/5) Determine: a) interval(s) on which it is increasing b) interval(s) on which...

Consider the graph y=6x^(1/5)+x^(6/5) Determine: a) interval(s) on which it is increasing b) interval(s) on which it is decreasing c) any local maxima or minima d) interval(s) on which it is concave up e) interval(s) on which it is concave down f) any point(s) of inflection

given function f(x)=-x^3+5x^2-3x+2 A) Determine the intervals where F(x) Is increasing and decreasing b) use your...

given function f(x)=-x^3+5x^2-3x+2 A) Determine the intervals where F(x) Is increasing and decreasing b) use your answer from a to determine any relative maxima or minima of the function c) Find that intervals where f(x) is concave up and concave down and any points of inflection

. Let f(x) = 3x^5/5 −2x^4+1. Find the following: (a) Interval of increasing: (b) Interval of...

. Let f(x) = 3x^5/5 −2x^4+1. Find the following: (a) Interval of increasing: (b) Interval of decreasing: (c) Local maximum(s) at x = d) Local minimum(s) at x = (e) Interval of concave up: (f) Interval of concave down: (g) Inflection point(s) at x =

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

Suppose that f(x)=x−3x^1/3 (A) Find all critical values of f. If there are no critical values,...

Suppose that f(x)=x−3x^1/3 (A) Find all critical values of f. If there are no critical values, enter -1000. If there are more than one, enter them separated by commas. Critical value(s) = (B) Use interval notation to indicate where f(x) is increasing. Note: When using interval notation in WeBWorK, you use INF for ∞∞, -INF for −∞−∞, and U for the union symbol. If there are no values that satisfy the required condition, then enter "{}" without the quotation marks....

Let f(x) = 3x^5/5 −2x^4+1 Find the following -Interval of increasing -Interval of decreasing -Local maximum(s)...

Let f(x) = 3x^5/5 −2x^4+1 Find the following -Interval of increasing -Interval of decreasing -Local maximum(s) at x = -Local minimum(s) at x = -Interval of concave up -Interval of concave down -Inflection point(s) at x =

Let f(x) = 3x^5/5 −2x^4+1 Find the following -Interval of increasing -Interval of decreasing -Local maximum(s)...

Let f(x) = 3x^5/5 −2x^4+1 Find the following -Interval of increasing -Interval of decreasing -Local maximum(s) at x = -Local minimum(s) at x = -Interval of concave up -Interval of concave down -Inflection point(s) at x =

Consider the following. f(x) = 4x3 − 6x2 − 24x + 4 (a) Find the intervals...

Consider the following. f(x) = 4x3 − 6x2 − 24x + 4 (a) Find the intervals on which f is increasing or decreasing. (Enter your answers using interval notation.) increasing decreasing (b) Find the local maximum and minimum values of f. (If an answer does not exist, enter DNE.) local minimum value local maximum value (c) Find the intervals of concavity and the inflection points. (Enter your answers using interval notation.) concave up concave down inflection point (x, y) =

Given f(x)= x3 - 6x2-15x+30 Determine f ’(x) Define “critical point” of a function. Then determine...

Given f(x)= x3 - 6x2-15x+30 Determine f ’(x) Define “critical point” of a function. Then determine the critical points of f(x). Use the sign of f ’(x) to determine the interval(s) on which the function is increasing and the interval(s) on which it is decreasing. Use the results from (c) to determine the location and values (x and y-values of the relative maxima and the relative minima of f(x). Determine f ’’(x) On which intervals is the graph of f(x)...

Given the function g(x) = x3-3x + 1, use the first and second derivative tests to...

Given the function g(x) = x3-3x + 1, use the first and second derivative tests to (a) Find the intervals where g(x) is increasing and decreasing. (b) Find the points where the function reaches all realtive maxima and minima. (c) Determine the intervals for which g(x) is concave up and concave down. (d) Determine all points of inflection for g(x). (e) Graph g(x). Label your axes, extrema, and point(s) of inflection.