V (s)+O2 (g)=V2O3 (s) V (s)=50.94 g/mol O2 (g)=32.00 g/mol V2O3 (s)=149.88 g/mol a. Calculate the theoretical yield of vanadium (III) oxide, assuming you begin with 200.00 grams vanadium metal. b. After the experiment is performed, an experimental yield of 183.2 grams is produced. Calculate the percent yield for this experiment. c. Determine t he percent error. d. Compute for the excess amount of the excess reactant
V (s)+O2 (g)=V2O3 (s) V (s)=50.94 g/mol O2 (g)=32.00 g/mol V2O3 (s)=149.88 g/mol a. Calculate the theoretical yield of vanadium (III) oxide, assuming you begin with 200.00 grams vanadium metal. b. After the experiment is performed, an experimental yield of 183.2 grams is produced. Calculate the percent yield for this experiment. c. Determine t he percent error. d. Compute for the excess amount of the excess reactant
Chemistry
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ISBN:9781305957404
Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Chapter1: Chemical Foundations
Section: Chapter Questions
Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...
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V (s)+O2 (g)=V2O3 (s)
V (s)=50.94 g/mol
O2 (g)=32.00 g/mol
V2O3 (s)=149.88 g/mol
a. Calculate the theoretical yield of vanadium (III) oxide, assuming you begin
with 200.00 grams vanadium metal.
b. After the experiment is performed, an experimental yield of 183.2 grams is
produced. Calculate the percent yield for this experiment.
c. Determine t
he percent error.
d. Compute for the excess amount of the excess reactant
Transcribed Image Text:2.
50.94 gimal
32.00 g/mal
149 88 gimal
a. Calculate the theoretical yield of vanadium (III) oxide, assuming you begin
with 200.00 grams vanadium metal.
b. After the experiment is performed, an experimental yield of 183.2 grams is
produced. Calculate the percent yield for this experiment.
c. Determine the percent error.
d. Compute for the excess amount of the excess reactant.
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