DDT, which can be prepared by the reaction shown below, was an insecticide used to prevent mosquito borne diseases. Due to the harmful effects on birds and fish, it is now banned in the US. However, other countries still use it to control mosquitos. Determine the amount of DDT that can be produced and the percent yield for this reaction by constructing a BCA table, determining the maximum grams of DDT that can be produced, and calculating the percent yield. Complete Parts 1-3 before submitting your answer. 2 C6H5Cl + C₂HOCI3 → C14H9Cl5 + H₂O 2 NEXT > If a company in South America started with 1175 g of chlorobenzene (C6H5CI, MW 112.55 g/mol) and 538.5 g of chloral (C₂HOCI3, MW 147.39 g/mol), set up the table below that represents 100% yield with the given reaction conditions. Before (mol) Change (mol) After (mol) -7.308 0 10.44 2 C6H,CI + 00 1 -10.44 C₂HOCI 3 3.132 -3.132 3 C14H₂Cl5 3.654 -3.654 H₂O RESET 7.308

could i also have the % yeild?

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Gut Health Journ....pdf DDT, which can be prepared by the reaction shown below, was an insecticide used to prevent mosquito borne diseases. Due to the harmful effects on birds and fish, it is now banned in the US. However, other countries still use it to control mosquitos. Determine the amount of DDT that can be produced and the percent yield for this reaction by constructing a BCA table, determining the maximum grams of DDT that can be produced, and calculating the percent yield. Complete Parts 1-3 before submitting your answer. 2 C6H5Cl + C₂HOCI 3 C14H₂Cl5 + H₂O 2 NEXT > If a company in South America started with 1175 g of chlorobenzene (C6H5CI, MW 112.55 g/mol) and 538.5 g of chloral (C₂HOCI3, MW 147.39 g/mol), set up the table below that represents 100% yield with the given reaction conditions. Before (mol) Change (mol) After (mol) -7.308 0 10.44 1 2 C6H5CI + C₂HOCI 3 1 -10.44 3.132 -3.132 3 C14H9Cl5 + 3.654 -3.654 H₂O RESET 7.308

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STARTING AMOUNT X This question will walk you through the steps of determining which reactant is limiting based on a balanced chemical equation. Step 2a: Use dimensional analysis to determine the theoretical yield of the product. Calculate the theoretical yield in moles CO₂ from the complete combustion of 29.3 grams CH4 according to the following balanced chemical equation: 1 CH4(g) + 2 O₂(g) → 1 CO₂(g) + 2 H₂O(1) 56.2 ADD FACTOR x( ) 1.83 g CO₂ 0.547 44.01 1 29.3 2 ANSWER 16.05 0.915 0.666 g/mol CO₂ mol CO₂ g/mol CH4 mol CH4 RESET 5 18.02 g CH₂ 16.00