62.5%
What I did was divided 43.75 by 70 to get 0.625.
Then I moved the decimal over two places to the right to get 62.5.
We have been given that the circular opening of an ice cream cone has a diameter of 7 centimeters. The height of the cone is 10 centimeters. We are asked to find the volume of the ice cream cone in cubic centimeters.
We will use volume of cone formula to solve our given problem.
, where,
r = Radius
h = Height.
We know that diameter is two times the radius, so radius of cone would be half the diameter that is 
cm.
Upon rounding to nearest tenth, we will get:
Therefore, the volume of the cone would be approximately 128.3 cubic cm.
200%
Hope this is right!
:)
A two column proof shows an algebraic step being taken, and then describes the step and how it's justified to the right.
A flowchart proof links each step to the next, with a brief description below it.
A paragraph proof describes each step in a group of text, written as a paragraph.
<h3>Answer:</h3>
All of the above (see explanation)
<h3>Explanation:</h3>
The y-values form a geometric sequence with a common ratio of 5 (answer choice b).
Usually "rate of change" is taken to mean ...
... rate of change = (change in y)/(change in x)
Between -1 and 0, the (average) rate of change is ...
... (1/2 -1/10)/(0 -(-1)) = 2/5
Between 0 and 1, the rate of change is ...
... (5/2 -1/2)/(1 - 0) = 2
Between 1 and 2, the rate of change is ...
... (25/2 -5/2)/(2 -1) = 10
_____
For an exponential relation such as this, the <em>rate of change</em> varies from as close to zero as you like to as near infinity as you like. Hence, at some point on the graph, the rate of change will be <em>any of the listed values</em>.
