Petinga said:
A piece of wire of length 50cm is cut into 2 sections. One section is used to construct a rectangle whose dimensions are in the ratio 1:3; the other section is used to construct a square. Find the dimensions of the rectangle and the square so that the total enclosed area is minimum.
Help needed ASAP
(Note: My x is differant to rama_v's x, sorry for any confusion)
I interpreted this question somewhat differently to rama_v, I think it means that the wire is used to make all of the rectangle and square, not just the bases.
Let the piece of wire used to make the square be x cm, and the other piece be 50 - x cm.
Therefore the square has dimensions x/4 * x/4, and the rectangle has dimensions (50 - x)/8 * 3(50 - x)/8
Therefore the sum of the areas is f(x) = (x^2)/16 + (3/64)(2500 - 100x + x^2)
f'(x) = (14/64)x - 300/64
When f'(x) = 0, then (14/64)x = 300/64, therefore x = 300/14
f''(x) = 14/64, which is positive, therefore x = 300/14 is a minimum
Therefore the minimum area has x = 300/14 = 21 6/14 cm
Therefore the dimensions of the square are 75/14 cm * 75/14 cm, and the dimensions of the rectangle are 75/28 cm * 225/28 cm
