of each reagent is provide 12. For each reaction below, the starting mass/ as well as the final mass of product isolated. Calculate the theoretical an percent yield for each reaction. b. a. OH + MW 122 1.50 g CI MW 141 d 1.21 g/mL 0.250 mL OH ㅅ MW 60.1 7.40 g 1. PhMgBr MW 181 905 mg 2. HCI H₂PO4 OH Ph MW 164 1.86 g Ph MW 260 547 mg + H₂O
of each reagent is provide 12. For each reaction below, the starting mass/ as well as the final mass of product isolated. Calculate the theoretical an percent yield for each reaction. b. a. OH + MW 122 1.50 g CI MW 141 d 1.21 g/mL 0.250 mL OH ㅅ MW 60.1 7.40 g 1. PhMgBr MW 181 905 mg 2. HCI H₂PO4 OH Ph MW 164 1.86 g Ph MW 260 547 mg + H₂O
Chemistry
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ISBN:9781305957404
Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
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Chapter1: Chemical Foundations
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Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...
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calculate theoretical and percent yield for each reaction

Transcribed Image Text:12. For each reaction below, the starting mass/volume of each reagent is provided
as well as the final mass of product isolated. Calculate the theoretical a
percent yield for each reaction.
0
b.
a.
MW 122
1.50 g
0
OH +
CI
MW 141
d 1.21 g/mL
0.250 mL
OH
MW 60.1
7.40 g
1. PhMgBr
MW 181
905 mg
2. HC1
H₂PO4
or
MW 164
1.86 g
OH
Ph
Ph
MW 260
547 mg
+ H₂O
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Step 1: Determine the theoretical and percent yield of the reactions from the given data:
VIEWStep 2: (a) Calculation for moles of each reactant and limiting reactant :
VIEWStep 3: (a) Calculation for theoretical yield and percent yield:
VIEWStep 4: (b) Calculation for moles of each reactant and limiting reactant:
VIEWStep 5: (b) Calculation for theoretical yield and percent yield:
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