You should have 2 points
Well it sounds like you are doing volume so it is length time winth time high so times all the fraction
The answer is B.-1
When you calculate the average rate of change of a function, you are finding the slope of the secant line between the two points. f(x) = x2 and f(x + h) = (x + h)2 Therefore, the slope of the secant line between any two points on this function is 2x + h.p explanation:
Good evening ,
f(1)=3 and f(3) = -1 so the average rate of change from x = 1 to x = 4 is 1.
Look at the photo below for more details,
We'll use the slope formula as soon as we figure out the coordinates to plug into it! At x = -4, the y value there is 4; the coordinate is (-4, 4). At x = 1, the y value there is -1; the coordinate is (1, -1). Plugging into the slope formula:
If you didn't pick up this, the "average rate of change" is the same exact thing as the slope. It's -1.
it is b
its b because there is a u over the x axis making it 1
The correct option is (C) 2.
Step-by-step explanation: We are given to find the average rate of change of the given graph from x = 1 to x = 3.
Let the graphed function be denote by y = f(x).
From the graph, we note that
f(1) = -3 and f(3) = 1.
We know that
the average rate of change of a function g(x) from x = a to x = b is given by
Therefore, the average rate of change of the graphed function from x = 1 to x = 3 is given by
Thus, the required average rate of change is 2.
Option (C) is CORRECT.
As you can see in the graph, when x=1, y=3 and when x=4, y=0
Then, draw a line that cut the points (1,3) and (4,0), as you can see in the image attached, and calculate the slope (which represents the average rate of change of the function), with the following formula:
Therefore, the aswer is the option B.