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A rectangular package to be sent by a postal service can have a maximum combined length and girth (perimeter of a cross section) of 90 inches (see figure). Find the dimensions of the package of maximum volume that can be sent. (Assume the cross section is square.)

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alexchau1999

Answer: The maximum volume of the package is obtained with a cross section of side 18 inches and a length of 36 inches.

Step-by-step explanation: This is a optimization with restrictions problem.

The restriction is that the perimeter of the square cross section plus the length is equal to 108 inches (as we will maximize the volume, we wil use the maximum of length and cross section perimeter).

This restriction can be expressed as:

being x: the side of the square of the cross section and L: length of the package.

The volume, that we want to maximize, is:

If we express L in function of x using the restriction equation, we get:

We replace L in the volume formula and we get

To maximize the volume we derive and equal to 0

We can replace x to calculate L:

The maximum volume of the package is obtained with a cross section of side 18 inches and a length of 36 inches.

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