When integrating using shells, the first step is to plot the graph. I personally plotted it with the x and y axis switched, because it aids me in picturing the graph. The integral ranges from 9 to 11, since those are the limits from the two lines y = 9 and y = 11. The reason that these are the limits is because it is rotating around the x, not the y.
Now that you have the limits of the integral, you have to find what goes inside it.
Because you are integrating using shells, you need to remember to include the
Again, there is a y here instead of an x, because you are rotating around the x axis. Then you just need to input the function f(y). If you look at the graph that you (hopefully) plotted, you can see that this function ranges between the y axis and the curve
. Put together the pieces, and you have the integral
After substituting in
, you get
Simplified, this is
Integrating, we get
Therefore, the solution is
Note: I didn't spend very much time reviewing these integrals, so I may be incorrect.
Answer:60 sentences
Step-by-step explanation:
Step 1: 15/5=3
Step2: 3*20=60
Answer:
The Volume is decreasing at a rate of per minute.
Step-by-step explanation:
Given a cone of radius r and perpendicular height h
Volume of the cone,
Since the height of the cone is fixed, the rate of change of the volume of the Cone, is given as:
We are to determine the rate of change of the Volume, V when:
The radius is decreasing at a rate of 2 cm per minute,
Height, h=9 cm
Radius = 13cm
The Volume is decreasing at a rate of per minute.
∛-50 = ∛(-1 *50) = ∛-1 * ∛50 = -1 * 3.6840 = -3.6840