1. At x = 1, the function g( x ) = 5x ln(x) − 3x is...

Without using a calculator, find y' for the function: y = sin-1 (3x)+ln(x)sinh(3x)+ (2x−1)/sqrt(5x+1)

Without using a calculator, find y' for the function: y = sin-1 (3x)+ln(x)sinh(3x)+ (2x−1)/sqrt(5x+1)

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 =

Graph 1 + 3x^2 - 2x^3. List the coordinates of the relative maximum, relative minimum, and...

Graph 1 + 3x^2 - 2x^3. List the coordinates of the relative maximum, relative minimum, and the point of inflection. State the intervals where the function is increasing, decreasing, concave up and concave down. Please make the answer legible, thank you :)

1.) Suppose g(x) = x2− 3x. On the interval [0, 4], use calculus to identify x-coordinate...

1.) Suppose g(x) = x2− 3x. On the interval [0, 4], use calculus to identify x-coordinate of each local / global minimum / maximum value of g(x). 2.) For the function f(x) = x 4 − x 3 + 7... a.) Show that the critical points are at x = 0 and x = 3/4 (Plug these into the derivative, what you get should tell you that they are critical points). b.) Identify all intervals where f(x) is increasing c.)...

For the function f(x)=x^5+5x^4-4. Write "none" if there isn't an answer. (a) find all local extrema...

For the function f(x)=x^5+5x^4-4. Write "none" if there isn't an answer. (a) find all local extrema of this function, if any, and increasing and decreasing intervals. Local max:___ Local min:___ Increasing:___ Decreasing:___ (b) Find all the inflection points of this function, if ay. And concave up and concave down intervals. Inflection points:___ concave up:___ concave down:___ (c) Use part a and b to sketch the graph of the function. Must label important points and show proper concavity.

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 =

1. The critical point(s) of the function 2. The interval(s) of increasing and decreasing 3. The...

1. The critical point(s) of the function 2. The interval(s) of increasing and decreasing 3. The local extrema 4. The interval(s) of concave up and concave down 5. The inflection point(s). f(x) = (x^2 − 2x + 2)e^x

1. Use the first derivative test and the second derivative test to determine where each function...

1. Use the first derivative test and the second derivative test to determine where each function is​ increasing, decreasing, concave​ up, and concave down. y=20x e^-x , x>0 2. Use the first derivative and the second derivative test to determine where each function is​ increasing, decreasing, concave​ up, and concave down. y=4sin(πx^2), 10≤x≤1