courtrigrad
Dec15-04, 09:23 PM
Hello all
I have a few questions on maxima and minima
1. A farmer plans to fence in a rectangular pasture located adjacent to a river. She has 640 yards of fencing available and will need to use double fencing on the two opposite sides. What dimensions should be used so that the enclosed area will be maximum? (N0 fencing on the river)
Would the function be x(320 - 2x)?
2. If 40 passengers hire a special car on a train, they will be charged $8.00 each. For each passenger over the 40 this fare is cut $0.10 apiece for all passengers. How many passengers will produce th greatest income for the railroad?
I am not sure about the equation for this one.
3. A manufacturer wishes to construct a cylindrical can to hold 100 pi in^3. The top and bottom of the can are to be stronger than the sides. The tin used in making the top and bottom will cost 2.5 cents per square inch while the metal used in making the sides will cost 1.35 cents per square inch. What dimensions should be used to minimize the cost of the metal?
All I know it that the area of a cylinder = pi*r^2 * h.
Any help is greatly appreciated
Thanks
I have a few questions on maxima and minima
1. A farmer plans to fence in a rectangular pasture located adjacent to a river. She has 640 yards of fencing available and will need to use double fencing on the two opposite sides. What dimensions should be used so that the enclosed area will be maximum? (N0 fencing on the river)
Would the function be x(320 - 2x)?
2. If 40 passengers hire a special car on a train, they will be charged $8.00 each. For each passenger over the 40 this fare is cut $0.10 apiece for all passengers. How many passengers will produce th greatest income for the railroad?
I am not sure about the equation for this one.
3. A manufacturer wishes to construct a cylindrical can to hold 100 pi in^3. The top and bottom of the can are to be stronger than the sides. The tin used in making the top and bottom will cost 2.5 cents per square inch while the metal used in making the sides will cost 1.35 cents per square inch. What dimensions should be used to minimize the cost of the metal?
All I know it that the area of a cylinder = pi*r^2 * h.
Any help is greatly appreciated
Thanks