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Kane Manufacturing Has a Division That Produces Two Models of Fireplace

Question 65

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Kane Manufacturing has a division that produces two models of fireplace grates, model A and model B. To produce each model A grate requires 3 lb of cast iron and 6 min of labor. To produce each model B grade requires 4 lb of cast iron and 3 min of labor. The profit for each model A grate is Kane Manufacturing has a division that produces two models of fireplace grates, model A and model B. To produce each model A grate requires 3 lb of cast iron and 6 min of labor. To produce each model B grade requires 4 lb of cast iron and 3 min of labor. The profit for each model A grate is , and the profit for each model B grate is . If of cast iron and labor-hours are available for the production of fireplace grates of each model should the division produce to maximize kane's profit? what is the optimal profit? A) 108 model A grates and 140 model B grates in each shift, the company will Realize an optimal profit of $384. B) 110 model A grates and 140 model B grates in each shift, the company will Realize an optimal profit of $392. C) 110 model A grates and 140 model B grates in each shift, the company will Realize an optimal profit of $384. D) 112 model A grates and 140 model B grates in each shift, the company will Realize an optimal profit of $392. E) 110 model A grates and 140 model B grates in each shift, the company will Realize an optimal profit of $388. , and the profit for each model B grate is Kane Manufacturing has a division that produces two models of fireplace grates, model A and model B. To produce each model A grate requires 3 lb of cast iron and 6 min of labor. To produce each model B grade requires 4 lb of cast iron and 3 min of labor. The profit for each model A grate is , and the profit for each model B grate is . If of cast iron and labor-hours are available for the production of fireplace grates of each model should the division produce to maximize kane's profit? what is the optimal profit? A) 108 model A grates and 140 model B grates in each shift, the company will Realize an optimal profit of $384. B) 110 model A grates and 140 model B grates in each shift, the company will Realize an optimal profit of $392. C) 110 model A grates and 140 model B grates in each shift, the company will Realize an optimal profit of $384. D) 112 model A grates and 140 model B grates in each shift, the company will Realize an optimal profit of $392. E) 110 model A grates and 140 model B grates in each shift, the company will Realize an optimal profit of $388. . If Kane Manufacturing has a division that produces two models of fireplace grates, model A and model B. To produce each model A grate requires 3 lb of cast iron and 6 min of labor. To produce each model B grade requires 4 lb of cast iron and 3 min of labor. The profit for each model A grate is , and the profit for each model B grate is . If of cast iron and labor-hours are available for the production of fireplace grates of each model should the division produce to maximize kane's profit? what is the optimal profit? A) 108 model A grates and 140 model B grates in each shift, the company will Realize an optimal profit of $384. B) 110 model A grates and 140 model B grates in each shift, the company will Realize an optimal profit of $392. C) 110 model A grates and 140 model B grates in each shift, the company will Realize an optimal profit of $384. D) 112 model A grates and 140 model B grates in each shift, the company will Realize an optimal profit of $392. E) 110 model A grates and 140 model B grates in each shift, the company will Realize an optimal profit of $388. of cast iron and Kane Manufacturing has a division that produces two models of fireplace grates, model A and model B. To produce each model A grate requires 3 lb of cast iron and 6 min of labor. To produce each model B grade requires 4 lb of cast iron and 3 min of labor. The profit for each model A grate is , and the profit for each model B grate is . If of cast iron and labor-hours are available for the production of fireplace grates of each model should the division produce to maximize kane's profit? what is the optimal profit? A) 108 model A grates and 140 model B grates in each shift, the company will Realize an optimal profit of $384. B) 110 model A grates and 140 model B grates in each shift, the company will Realize an optimal profit of $392. C) 110 model A grates and 140 model B grates in each shift, the company will Realize an optimal profit of $384. D) 112 model A grates and 140 model B grates in each shift, the company will Realize an optimal profit of $392. E) 110 model A grates and 140 model B grates in each shift, the company will Realize an optimal profit of $388. labor-hours are available for the production of fireplace grates of each model should the division produce to maximize kane's profit? what is the optimal profit?


A) 108 model A grates and 140 model B grates in each shift, the company will
Realize an optimal profit of $384.
B) 110 model A grates and 140 model B grates in each shift, the company will
Realize an optimal profit of $392.
C) 110 model A grates and 140 model B grates in each shift, the company will
Realize an optimal profit of $384.
D) 112 model A grates and 140 model B grates in each shift, the company will
Realize an optimal profit of $392.
E) 110 model A grates and 140 model B grates in each shift, the company will
Realize an optimal profit of $388.

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