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Question:

A cylindrical container is to be made from certain solid material with the following constraints: It has a fixed inner volume of V mm³, has a 2 mm thick solid wall and is open at the top. The bottom of the container is a solid circular disc of thickness 2 mm and is of radius equal to the outer radius of the container. If the volume of the material used to make the container is minimum when the inner radius of the container is 10 mm, then the value of V/(250π) is?

Solution:

Let inner radius of the container be r and height be h
∴V = πr²h ⇒ h = V/(πr²). (1)
Now volume of the material
v = π(r+2)²h + π(r+2)² × 2 - πr²h
⇒v = 4πrh + 4πh + π(r+2)² × 2 = 4Vr/r² + 4V/(πr²) + 2π(r+2)²
Now for minimum material required
dv/dr = 0 ⇒ -4V/r² + 4V/(πr³) + 4π(r+2) = 0
⇒V/100 + V/500 = π(10+2) ⇒ V/(250π) = 4