Answer to Question #237086 in Operations Research for lavanya

Question #237086

. A tailor has the following material available: 16 sq. yd. cotton, 11 sq. yd. silk and 15 sq. yd. wool. A suit requires 2 sq. yd. cotton, 1 sq. yd. silk and 1 sq. yd. wool. A gown requires 1 sq. yd. cotton, 2 sq. td. Silk and 3 sq. yd. wool. If a suit sells for Rs. 300/- and a gown for Rs. 500/-, how many of each garment should the tailor mak to obtain the maximum amount of profit?

Expert's answer

Let "x=" the number of suits, "y=" the number of gowns.

Maximize "Z=300x+500y"

subject to

"2x+y\\leq16"

"x+2y\\leq11"

"x+3y\\leq 15"

"x\\geq0, y\\geq0"

"OA: x=0, 0\\leq y\\leq5, Z=500y"

"AB: y=5-\\dfrac{1}{3}x, 0\\leq x\\leq3, Z=\\dfrac{400}{3}x+2500"

"BC: y=\\dfrac{11}{2}-\\dfrac{1}{2}x, 3\\leq x\\leq7, Z=50x+2750"

"CD: y=16-2x, 7\\leq x\\leq8, Z=-700x+8000"

"OD: y=0, 0\\leq x\\leq8, Z=300x"

"\\def\\arraystretch{1.5}\n \\begin{array}{c:c:c}\n Extreme & Lines\\ through & Objective \\ function \\\\\npoint & exreme\\ point & value\\\\ \\hline\n O (0,0) & x=0, & Z=500(0) \\\\ \n& y=0 &=0\\\\\n \\hdashline\n A (0,5) & x=0, & Z=500(5)\\\\\n & y=5-\\dfrac{1}{3}x & =2500\\\\\n \\hdashline\nB (3,4) & y=5-x\/3, & Z=50(3)+2750\\\\\n & y=11\/2-x\/2 & =2900\\\\\n \\hdashline\n C (7,2) & y=11\/2-x\/2, & Z=-700(7)+8000\\\\\n & y=8-2x & =3100\\\\\n \\hdashline\n D (8,0) & y=8-2x & Z=300(8)\\\\\n & y=0 & =2400\\\\\n \\hdashline\n\\end{array}"

The maximum value of the objective function "Z=3100" occurs at the extreme point "(7, 2)."

Answer to Question #237086 in Operations Research for lavanya

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