y = -3/2x + 1 would work lol
This graph has its maximum at 4. There is no minimum while the inflection is at 2, 10/3.
<h3>How to solve for the maximum of the graph</h3>
We have ( x-2²) (x-4)
x-2²) = 0, or x - 4
x - 2 = 0, x = 2
Hence we can see that the graph has its minimum at x = 4
b. The graph here does not have a local maximum
<h3>c. Next we have to find the point of inflection</h3>
To do this you have to differentiate the equation
Use the product rule of differentiation in order to solve for the solution.
(x-2)²[ (x-4) 2 (x-2)]
This would then give us
x -2, 3x -10
In both equations we have to make x the subject of the equation
X = 2, x = 10/3
Hence the point of inflection is 2 and 10/3
Read more on minimum and maximum points here:
brainly.com/question/12120831
#SPJ1
Answer:
Step-by-step explanation:
-2x² + 12x + 32 = 0
discriminant = 12² - 4(-2)(32) = 400
positive discriminant means there are two distinct real roots
x = [-12 ± √(12² – 4(-2)·32)] / [2·(-2)]
= [-12 ± √400] / (-4)
= [-12 ± 20] /(-4)
= 8, -2
Answer:
- 3 large boxes
- 9 small boxes
Step-by-step explanation:
The purchase can be grouped into groups containing one large box and 3 small boxes. Then each group will have 12 +3·6 = 30 granola bars.
Since 90 bars were purchased, the camp bought 90/30 = 3 groups of boxes of bars.
They purchased 3 large boxes and 9 small boxes of bars.
Step-by-step explanation:
64 bro
