4. Assume that an esterification reaction is done using 0.10 moles of a carboxylic acid and 1.0 moles of an alcohol. What is the theoretical yield (in moles) for the reaction? (You can write a generic esterification reaction to help answer this question and recognize the limiting reagent.) 5. A student completes the reaction described in question 4 and obtains 5.3 g of the product (the product has a molecular mass of 74.0 g/mol). a) What is the actual yield (the moles of product obtained)? Show your calculation, including units. 5.3 g product X mol products b) Calculate the % yield for the reaction. Show your calculation, including units.
4. Assume that an esterification reaction is done using 0.10 moles of a carboxylic acid and 1.0 moles of an alcohol. What is the theoretical yield (in moles) for the reaction? (You can write a generic esterification reaction to help answer this question and recognize the limiting reagent.) 5. A student completes the reaction described in question 4 and obtains 5.3 g of the product (the product has a molecular mass of 74.0 g/mol). a) What is the actual yield (the moles of product obtained)? Show your calculation, including units. 5.3 g product X mol products b) Calculate the % yield for the reaction. Show your calculation, including units.
Chemistry for Engineering Students
4th Edition
ISBN:9781337398909
Author:Lawrence S. Brown, Tom Holme
Publisher:Lawrence S. Brown, Tom Holme
Chapter4: Stoichiometry
Section: Chapter Questions
Problem 4.4PAE: 4.4 Automobile exhaust often contains traces of formaldehyde (CH2O), which is another possible...
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Transcribed Image Text:4. Assume that an esterification reaction is done using 0.10 moles of a carboxylic acid and
1.0 moles of an alcohol. What is the theoretical yield (in moles) for the reaction? (You
can write a generic esterification reaction to help answer this question and recognize the
limiting reagent.)
5. A student completes the reaction described in question 4 and obtains 5.3 g of the
product (the product has a molecular mass of 74.0 g/mol).
a) What is the actual yield (the moles of product obtained)? Show your calculation,
including units.
5.3 g product X
mol products
b) Calculate the % yield for the reaction. Show your calculation, including units.
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