4. Two production unit in a plant designated number 1 and 2 is constructed to produce products 1 and 2, respectively, from the three feedstocks (A, B, and C). To make 1.0 kg of product 1 requires 0.4 kg of A and 0.6 kg of B; to make 1.0 kg of product requires 0.3 kg of B and 0.7 kg of C. A maximum of 6000 kg/day of B is available, but there are no limits on the available amounts of A and C. Unit 1 has a maximum capacity of 4 batches/day, and unit 2 of 5 batches/day. Assume the net revenue after expenses from the manufacture of product 1 is $ 0.16 /kg, and of product 2 is $0.20/kg. How much of products 1 and 2 should be produced per day, assuming that each must be made in batches of 2000 kg? (number of batches can be represented by integer variables)

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4. Two production unit in a plant designated number 1 and 2 is constructed to produce products 1 and 2, respectively, from the three feedstocks (A, B, and C). To make 1.0 kg of product 1 requires 0.4 kg of A and 0.6 kg of B; to make 1.0 kg of product 2 requires 0.3 kg of B and 0.7 kg of C. A maximum of 6000 kg/day of B is available, but there are no limits on the available amounts of A and C. Unit 1 has a maximum capacity of 4 batches/day, and unit 2 of 5 batches/day. Assume the net revenue after expenses from the manufacture of product 1 is $ 0.16 /kg, and of product 2 is $0.20/kg. How much of products 1 and 2 should be produced per day, assuming that each must be made in batches of 2000 kg? (number of batches can be represented by integer variables)