Formulate the following word problem as a linear programming problem. (Note that the natural constraints r > 0, y > 0, z > 0, have been omitted from the answers.) Do not attempt to solve it! The Flustard is an animal that eats three foods: squerps, fleebs, and blurds. A squerp costs $8 and provides 26 mg (milligrams) of mertle, 15 mg of perkle, and 29 mg of kerple. A fleeb costs $5 and provides 6 mg of mertle, 21 mg of perkle, and 9 mg of kerple. A blurd costs $3 and provides 21 mg of mertle, 17 mg of perkle, and 25 mg of kerple. The Flustard needs at least 0.7 g (grams) of mertle, 1.3 g of perkle, and 1 g of kerple every day to live. What's the cheapest way to feed your pet Flustard for one day? Use the variables # squerps # fleebs # blurds.

Please help me with this math homework question. I really can not figure this out. 

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Formulate the following word problem as a linear programming problem. (Note that the natural constraints r > 0, y > 0, z > 0, have been omitted from the answers.) Do not attempt to solve it! The Flustard is an animal that eats three foods: squerps, fleebs, and blurds. A squerp costs $8 and provides 26 mg (milligrams) of mertle, 15 mg of perkle, and 29 mg of kerple. A fleeb costs $5 and provides 6 mg of mertle, 21 mg of perkle, and 9 mg of kerple. A blurd costs $3 and provides 21 mg of mertle, 17 mg of perkle, and 25 mg of kerple. The Flustard needs at least 0.7 g (grams) of mertle, 1.3 g of perkle, and 1 g of kerple every day to live. What's the cheapest way to feed your pet Flustard for one day? Use the variables * = # squerps y = # fleebs = # blurds. (Note: 1 g. = 1000 mg.) minimize 8x+ 5y + 3z minimize 700x + 1300y + 1000z subject to the constraints subject to the constraints 26x + 6y + 21z > 8 15x + 21y + 17z > 5 29x + 9y + 25z > 3 26x + 6y + 21z < 700 15x + 21y + 17z < 1300 29x + 9y + 25z < 1000 (A) (В) minimize 700x+ 1300y + 1000z subject to the constraints maximize 8x + 5y + 3z subject to the constraints 26х + 6у + 212 < 8 15x + 21y + 17z < 5 29x + 9y + 25z < 3 26x + 6y + 21z > 700 15x + 21y + 17z 2 1300 29x + 9y + 25z > 1000 (C) (D) aximize 700x+1300y + 1000z maximize 8æ + 5y + 3z subject to the constraints subject to the constraints 26x + 6y + 21z < 8 15x + 21y + 17z < 5 29x + 9y + 25z < 3 26x + 6y + 21z < 700 15x + 21y + 17z < 1300 29x + 9y + 25z < 1000 (E) (F) maximize 700x+ 1300y + 1000z subject to the constraints minimize 8x + 5y + 3z subject to the constraints 26x + 6y + 21z > 8 15x + 21y + 17z > 5 29x + 9y + 25z > 3 26x + 6y + 21z > 700 15x + 21y + 17z 2 1300 29x + 9y + 25z > 1000 (G) (H)