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jackthehat
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Summary:: We are given a description of a reaction and the masses of two reactants and are initially asked to calculate which of two is the excess reagent and how much of the excess reagent would be left over if we have 100% completion. Then we are given a final mass (after purification) of the main product and asked to calculate the percentage yield.
I have this problem which is in three parts, I have correctly solved the first part but not the subsequent parts b) or c). The problem is -
Problem
A chemist heats a mixture of 125.0 grams of salicylic acid (C7 H6 O3) and 100.0 grams of acetic anhydride (C4 H6 O3), to produce Aspirin (acetylsalicylic acid- C9 H6 O3) and C2 H4 O2.
a) Which reagent is in excess?
b) How much will be left over after the reaction has gone to completion?
c) After the reaction described in parts a & b, the chemist purifies her aspirin product and finds that she has made 151.2 g of aspirin. What is the percent yield for this reaction?
Now for part a) .. I first of all wrote out the full balanced equation
C7 H6 O3 + C4 H6 O3 ---> C9 H8 O4 + C2 H4 O2
and so we see that the molar ratios of Salicylic Acid to Aspirin and Acetic Anhydride to Aspirin are both 1:1.
Next by using the molar masses of the two reactants and the main product (Aspirin) we can work out what molar mass of Aspirin 1 mole of each reactant would produce. Then taking ratios of actual mass and molar mass we can calculate what actual mass of aspirin would be produced by each actual mass of reactant (reagent) we have. the greater is produced by the excess reagent. from my calculations I calculated that ...
125g of salicylic acid would produce 163.00g of aspirin whereas
100.0g of acetic anhydride would produce 176.47g of aspirin ..
so acetic anhydride is the excess reagent.
For part b) .. I assumed that the 100% completion of reaction could be taken from our balanced equation previously as 180.0g of aspirin would be produced if 1 mole of reagents were reacted to 100% completion. So we have 100.0g of the excess reagent present which would produce ..
(100.0g/it's molar mass) x 180.0g (molar mass of aspirin) that is ..
(100.0/102.0) x 180.0 = 176.47g and so what would be left over is ..
180.0g - 176.47g = 3.530g (to 4 sig. figures)
I was marked wrong for this answer
For part c) .. I took the % yield to be 151.20g (of aspirin produced) divided by the 176.47 that theoretically would be produced by 100% completion taking into account the amount of reagent we had. then converting this fraction to percentage.
ie. .. (151.5/176.47) x 100 % .. which gave me .. 85.68%
I was marked wrong for this part.
I am at a loss to know where i went wrong in parts b) and c) ..
can anyone help point me in the right direction ?
Regards,
Jack
[Moderator's note: Moved from a technical forum and thus no template.]
I have this problem which is in three parts, I have correctly solved the first part but not the subsequent parts b) or c). The problem is -
Problem
A chemist heats a mixture of 125.0 grams of salicylic acid (C7 H6 O3) and 100.0 grams of acetic anhydride (C4 H6 O3), to produce Aspirin (acetylsalicylic acid- C9 H6 O3) and C2 H4 O2.
a) Which reagent is in excess?
b) How much will be left over after the reaction has gone to completion?
c) After the reaction described in parts a & b, the chemist purifies her aspirin product and finds that she has made 151.2 g of aspirin. What is the percent yield for this reaction?
Now for part a) .. I first of all wrote out the full balanced equation
C7 H6 O3 + C4 H6 O3 ---> C9 H8 O4 + C2 H4 O2
and so we see that the molar ratios of Salicylic Acid to Aspirin and Acetic Anhydride to Aspirin are both 1:1.
Next by using the molar masses of the two reactants and the main product (Aspirin) we can work out what molar mass of Aspirin 1 mole of each reactant would produce. Then taking ratios of actual mass and molar mass we can calculate what actual mass of aspirin would be produced by each actual mass of reactant (reagent) we have. the greater is produced by the excess reagent. from my calculations I calculated that ...
125g of salicylic acid would produce 163.00g of aspirin whereas
100.0g of acetic anhydride would produce 176.47g of aspirin ..
so acetic anhydride is the excess reagent.
For part b) .. I assumed that the 100% completion of reaction could be taken from our balanced equation previously as 180.0g of aspirin would be produced if 1 mole of reagents were reacted to 100% completion. So we have 100.0g of the excess reagent present which would produce ..
(100.0g/it's molar mass) x 180.0g (molar mass of aspirin) that is ..
(100.0/102.0) x 180.0 = 176.47g and so what would be left over is ..
180.0g - 176.47g = 3.530g (to 4 sig. figures)
I was marked wrong for this answer
For part c) .. I took the % yield to be 151.20g (of aspirin produced) divided by the 176.47 that theoretically would be produced by 100% completion taking into account the amount of reagent we had. then converting this fraction to percentage.
ie. .. (151.5/176.47) x 100 % .. which gave me .. 85.68%
I was marked wrong for this part.
I am at a loss to know where i went wrong in parts b) and c) ..
can anyone help point me in the right direction ?
Regards,
Jack
[Moderator's note: Moved from a technical forum and thus no template.]
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