An underground cistern is to be constructed to hold 100 cubic metres of radioactive waste. The cistern is to be a circular cylinder in shape. The circular base and vertical sides, which are all underground, cost $100 per square metre and the lid at ground level, costs $300 per square metre because of the necessary shielding. Furthermore, the depth of the tank cannot exceed 6m because of the hard rock layer beneath the surface, which would increase the excavation costs enormously if it were to be penetrated. Finally, the radius of the tank cannot exceed 4m, because of space limitations. What dimensions for the tank will keep its cost to a minimum?
(The answer answer is radius = 2.3m and height of 6m.)
I've set up the equations:
Cost=300πr^2 +100(πr^2+2πrh)
100=πr^2h
So Costs =300πr^2 +100(πr^2+2/r)
dC/dr=(800(πr^3-25))/r^2
Solving that I'm getting an answer of 1.99m and a height of 8.03m, which is greater than 6m. I'm stumped, how do I factor in or consider the constrictions for radius and height?
Thanks in advance
(The answer answer is radius = 2.3m and height of 6m.)
I've set up the equations:
Cost=300πr^2 +100(πr^2+2πrh)
100=πr^2h
So Costs =300πr^2 +100(πr^2+2/r)
dC/dr=(800(πr^3-25))/r^2
Solving that I'm getting an answer of 1.99m and a height of 8.03m, which is greater than 6m. I'm stumped, how do I factor in or consider the constrictions for radius and height?
Thanks in advance
