Answer:
810.58 dollars per year
Step-by-step explanation:
Ok, so we are given that P=5000, so that makes our function A(t)=5000(1.06)^t .
The average rate of change is really the slope of the line going through (15,y1) and (20,y2).
We can find the corresponding y values by plugging the x's there to A(t)=5000(1.06)^t.
So let's do that:
y1=A(15)=5000(1.06)^(15)=11982.79097
y2=A(20)=5000(1.06)^(20)=16035.67736
Now the slope of a line can be found by using the formula:
(y2-y1)/(x2_x1) or just lining up the points and subtracting vertically and remember y difference goes over x difference.
Like so:
( 15 , 11982.79097 )
- ( 20 , 16035.67736)
---------------------------------
-5 -4052.886391
So the average rate of change is whatever -4052.886391 divided by -5 is.....
which is approximately 810.58 dollars per year.
Answer:
The average rate of change in dollars per year between years 15 and 20 is:
[tex]m=\$810[/tex]
Step-by-step explanation:
First we calculate the profit of the investment for the year 15
So
[tex]P=5000\\t=15[/tex]
[tex]A(15)=5000(1.06)^{15}[/tex]
[tex]A(15)=11982.79[/tex]
Now we calculate the profit of the investment for the year 20
So
[tex]P=5000\\t=20[/tex]
[tex]A(20)=5000(1.06)^{20}[/tex]
[tex]A(20)=16035.68[/tex]
Now the average rate of change m is defined as:
[tex]m=\frac{A(20) - A(15)}{20-15}[/tex]
Therefore:
[tex]m=\frac{16035.68-11982.79}{20-15}[/tex]
[tex]m=\frac{4052.89}{5}[/tex]
[tex]m=\$810.58[/tex]
