- Consider The Following Function F X 3x 9 5 A Make A Sign Diagram For The First Derivative Select Select 1 (20.59 KiB) Viewed 33 times
- Consider The Following Function F X 3x 9 5 A Make A Sign Diagram For The First Derivative Select Select 2 (19.8 KiB) Viewed 33 times
- Consider The Following Function F X 3x 9 5 A Make A Sign Diagram For The First Derivative Select Select 3 (22.81 KiB) Viewed 33 times
- Consider The Following Function F X 3x 9 5 A Make A Sign Diagram For The First Derivative Select Select 4 (22.13 KiB) Viewed 33 times
- Consider The Following Function F X 3x 9 5 A Make A Sign Diagram For The First Derivative Select Select 5 (22.13 KiB) Viewed 33 times
- Consider The Following Function F X 3x 9 5 A Make A Sign Diagram For The First Derivative Select Select 6 (24.9 KiB) Viewed 33 times
- Consider The Following Function F X 3x 9 5 A Make A Sign Diagram For The First Derivative Select Select 7 (25.81 KiB) Viewed 33 times
Consider the following function. 13-√3+2 (a) Make a sign diagram for the first derivative. -Select- -Select- (b) Make a sign diagram for the second derivative. -Select- -Select- -10 -Select- (c) Sketch the graph, showing all relative extreme points and inflection points 10 105 Select- 10 -10 00 -5 -10 5 MY NOTES ASK YOUR TEACHER
4 For the function, find al critical numbers and then use the second-derivative test to determine whether the function has a relative maximum minimum at each crtical number (Enter your a as a comma-seperated ist. If an answer does not most, emer ONE) F(x)=x+ reative maxima relative minima DETAILS BERRAPCALC7 3.2.041.MI, 0/2 Submissions qued ASK YOUR TEACHI for the function, find al critical numbers and then use the second-derivative test to determine whether the function has a relative maximum or minimum at each crical fumber (Estar your answers as a comma-separated lue. If an answer does not exist, enter DNE) relative maxima relative minima DETAILS BERRAPCALC7 3.2.011.ML. 0/2 Submissions Used Consider the following function MY NOTES f(x)=x²-164722² +4 falsos diagram for the fire derivative. MY NOTES ASK YOUR TEACHER
Consider the following function. f(x) = (3x +9)5 (a) Make a sign diagram for the first derivative. -Select-- -Select- -Select- X = (b) Make a sign diagram for the second derivative. -Select- -Select- x= -Select- (c) Sketch the graph, showing all relative extreme points and inflection points.
Consider the following function. f(x) = √√√x + 2 (a) Make a sign diagram for the first derivative. --Select- -Select-- -Select-- X = (b) Make a sign diagram for the second derivative. -Select-- X = ---Select- 10 ---Select-- (c) Sketch the graph, showing all relative extreme points and inflection points.
5. BERRAPCALC7 3.2.045. 0/2 Submissions Used MY NOTES ASK YOUR TEACHER For the function, find all critical numbers and then use the second-derivative test to determine whether the function has a relative maximum or minimum at each critical number (Enter your answers as a comma-separated list. If an answer does not exist, enter ONE.) F(x)=x+² DETAILS relative maxima ** relative minima 3- DETAILS BERRAPCALC7 3.2.041.MI. 0/2 Submissions Used MY NOTES ASK YOUR TEACHER For the function, find all critical numbers and then use the second-derivative test to determine whether the function has a relative maximum or minimum at each critical number (Enter your answers as a comma-separated list. If an answer does not exist, enter ONE.) Px)=x²-15x²+63x-8 relative maxima relative minima x= DETAILS BERRAPCALC73.2.011.ML. 0/2 Submissions Used Consider the following function. 4)--164²+724471 MY NOTES ASK YOUR TEACHER