Question

In: Advanced Math

a rectangular open tank is to have a square base, and its volume is to be...

a rectangular open tank is to have a square base, and its volume is to be 125 cubic metrrs. the cost per square meter for the bottom is $24 and for the sides is $12. find the dimensions of the tank for which the cost of the material is to be the least. what is the least cost?

Solutions

Expert Solution

Colby Messinger answered 1 year ago
Next > < Previous

Related Solutions

A rectangular tank with a square​ base, an open​ top, and a volume of 1372 ft...
A rectangular tank with a square​ base, an open​ top, and a volume of 1372 ft cubed is to be constructed of sheet steel. Find the dimensions of the tank that has the minimum surface area.
A rectangular box with a square base and an open top and a volume of 1ft^3...
A rectangular box with a square base and an open top and a volume of 1ft^3 is to be made. Suppose the material used to build the sides cost $4 per ft^2 and the material used to build the bottom costs $1 per ft^2. Determine the dimensions (i.e. the side-length of the base and the height) of the box that will minimize the cost to build the box. Note: if we let x denote the side-length of the base and...
A rectangular box is to have a square base and a volume of 40 ft3. If...
A rectangular box is to have a square base and a volume of 40 ft3. If the material for the base costs $0.35 per square foot, the material for the sides costs $0.05 per square foot, and the material for the top costs $0.15 per square foot, determine the dimensions of the box that can be constructed at minimum cost. = Length Width Height how do i find length width and height
Determine the dimensions of a rectangular solid (with a square base) of maximum volume if its...
Determine the dimensions of a rectangular solid (with a square base) of maximum volume if its surface area is 216 square inches
A company plans to design an open top rectangular box with square base having volume 4...
A company plans to design an open top rectangular box with square base having volume 4 cubic inches. Find the dimension of the box so that the amount of materiel required for construction is minimal. (a) Find the dimension of the box so that the amount of materiel required for construction is minimized. (b) What is the minimized material required for the construction?
A closed rectangular container with a square base is to have volume of 36,000 cubic centimeters....
A closed rectangular container with a square base is to have volume of 36,000 cubic centimeters. The material for the top and bottom of the container will cost $0.10 per square centimeter, and the material for the sides will cost $0.20 per square centimeter. Find the dimensions with the least cost.
A box with a square base and open top must have a volume of 32000 cm3....
A box with a square base and open top must have a volume of 32000 cm3. We wish to find the dimensions of the box that minimize the amount of material used. Find the following: 1. First, find a formula for the surface area of the box in terms of only x, the length of one side of the square base. [Hint: use the volume formula to express the height of the box in terms of x.] Simplify your formula...
A box with a square base and open top must have a volume of 32000 cm^3....
A box with a square base and open top must have a volume of 32000 cm^3. Find the dimension of the box that minimize the amount of material used. (show all work)
A rectangular box with a square base has a volume of 4 cubic feet. The material...
A rectangular box with a square base has a volume of 4 cubic feet. The material for the bottom of the box costs $3 per square foot, the top costs $2 per square foot, and the four sides cost $5 per square foot. (a) If x is the side length of the square base, and y is the height of the box, find the total cost of the box as a function of one variable. (b) Find the critical number...
A rectangular box with a square base has a volume of 4 cubic feet. The material...
A rectangular box with a square base has a volume of 4 cubic feet. The material for the bottom of the box costs $3 per square foot, the top costs $2 per square foot, and the four sides cost $5 per square foot. (a) If x is the side length of the square base, and y is the height of the box, find the total cost of the box as a function of one variable. (b) Find the critical number...
ADVERTISEMENT
Subjects
ADVERTISEMENT
Latest Questions
ADVERTISEMENT