Determine the total mass of the product that could be formed from the balanced reaction shown below by constructing a BCA table and determining the maximum grams of product that can be produced. Complete Parts 1-2 before submitting your answer. 2 Al + 3 1₂ → 2 All3 1 Assume the reaction starts with 4.20 g AI (26.98 g/mol) and 17.40 g iodine, 1₂ (MW 253.80 g/mol). Set up the table below that represents 100% yield with the given reaction conditions.. 2

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Determine the total mass of the product that could be formed from the balanced reaction shown below by constructing a BCA table and determining the maximum grams of product that can be produced. Complete Parts 1-2 before submitting your answer. 2 Al +3 1₂ → 2 All3 1 Assume the reaction starts with 4.20 g Al (26.98 g/mol) and 17.40 g iodine, 12 (MW 253.80 g/mol). Set up the table below that represents 100% yield with the given reaction conditions.. Before (mol) Change (mol) After (mol) 0.0686 0.103 0.053 2 Al + 31₂ 000 0 -0.0686 -0.103 -0.053 2 JOJ 0.156 0.0457 0.110 2 All3 RESET -0.156 -0.0457 -0.110

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Determine the total mass of the product that could be formed from the balanced reaction shown below by constructing a BCA table and determining the maximum grams of product that can be produced. Complete Parts 1-2 before submitting your answer. 2 Al +3 1₂ → 2 All 3 0 Based on your table (Part 1), determine the maximum number of grams of All3 (MW 407.695 g/mol) formed under these conditions. 0.110 1 18.6 massAll3 = 0.156 0.053 28.0 2 0.0686 21.6 83.9 g RESET 0.0457 44.8