Respuesta :
Answer:
-0.114 cm/sec
Step-by-step explanation:
From the question;
The original radius of the cone is; R = 20/2 = 10 cm
The original height of the cone is; H = 30 cm.
Rate of decrease in the volume of the liquid = 12 cm³/sec, or dV/dt = -12 cm3/sec.
Now, at a later instant, the height of the liquid in the cone is h < H and the radius of the liquid in the cone is r < R. At that time, the volume of liquid is
V = (1/3) πr²h
Now,we know that the ratio of the height and radius of the liquid is the same at any time. So, we can do this by looking at similar triangles;
h/r = H/R
We want to find the rate of height, So, let's make the radius (r) the subject.
Thus;
r = (R/H)h
Substitute this expression for r into the equation for V above. We get
V = (1/3) π(R/H)²h²h = (1/3) π(R/H)h³
Remember R and H are constants, R = 10 cm, H = 30 cm
Now, we can the find the time derivative of each side
Using the chain rule, we have;
dV/dt = (R/H)h²π(dh/dt),
We now want to solve for dh/dt.
Thus,
dh/dt = (H/Rπ)(h^(-2))dV/dt
dV/dt = -12 cm³/sec.
h = 10 cm, since it is 20 cm deep at the time of interest.
So plugging in the relevant values;
dh/dt = (30/10)•(10^(-2))•(1/π) (-12) = -0.114 cm/sec
