Answer:
(a) A = (π/27)y³
(b) B = π -(π/27)(3 -h)³
(c) 0.0116 in/s
Step-by-step explanation:
(a) The volume of a cone is given by the formula ...
V = 1/3πr²h
For this part of the problem, the volume is designated A and we have h = y and r = y/3, so the volume is ...
A = (1/3)π(y/3)²(y)
A = (π/27)y³
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(b) The empty volume of the lower cone (V) is the same as the volume of the upper cone with y=3, so is ...
V = (π/27)(3³) = π . . . . . cubic inches
When the sand height is h in the lower cone, the height of the empty space is (3-h), so the volume of the empty space is ...
empty volume = (π/27)(3-h)³
and the volume B is the difference between that and the cone volume:
B = cone volume - empty volume
B = π -(π/27)(3 -h)³
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(c) We want the rate of change of height in the lower cone at a particular height when the rate of change of height in the upper cone is a particular value. We could sum the volumes and differentiate to find the rate of change of one height with respect to the other. (We would still need to find the height in the upper cone.) Or, we can cut to the chase.
The ratio of rates of change in height will be inversely proportional to the surface areas of the sand in each section of the cone. In turn, that ratio will be proportional to the square of the distance from the sand surface to the cone tip.
When the sand in the lower cone is 1 inch high, its volume is ...
B(1) = π -(π/27)(3 -1)³ = π -(8π/27) = 19π/27
Then the volume of the sand in the upper cone is ...
A = 3π/4 -19π/27 = 5π/108
The height of the sand in the upper cone is then ...
(π/27)h³ = π(5/108)
h³ = 5/4
h = ∛(5/4) . . . . . . . height of sand in upper cone
The sand surface in the lower cone is 1 inch above the base, so 2 inches from the apex. The ratio of surface areas in the two cones is then ...
lower sand area / upper sand area = (2 / ∛(5/4))²
The height of the sand in the lower cone will be increasing at a rate inversely proportional to this and proportional to the rate of decrease of height in the upper cone, given as 4/100 in/s.
rate of increase of sand in lower cone = (4/100)/((2 / ∛(5/4))²)
= (∛12.5)/200 ≈ 0.0116 . . . . inches per second
