Tin(IV) sulfide, SnS2,SnS2, a yellow pigment, can be produced using the following reaction. SnBr4(aq)+2Na2S(aq)⟶4NaBr(aq)+SnS2(s)SnBr4(aq)+2Na2S(aq)⟶4NaBr(aq)+SnS2(s) Suppose a student adds 49.3 mL49.3 mL of a 0.471 M0.471 M solution of SnBr4SnBr4 to 43.3 mL43.3 mL of a 0.175 M0.175 M solution of Na2S. Calculate the theoretical yield of SnS2. then... The student recovers 0.410 g0.410 g of SnS2.SnS2. Calculate the percent yield of SnS2SnS2 that the student obtained.
Tin(IV) sulfide, SnS2,SnS2, a yellow pigment, can be produced using the following reaction. SnBr4(aq)+2Na2S(aq)⟶4NaBr(aq)+SnS2(s)SnBr4(aq)+2Na2S(aq)⟶4NaBr(aq)+SnS2(s) Suppose a student adds 49.3 mL49.3 mL of a 0.471 M0.471 M solution of SnBr4SnBr4 to 43.3 mL43.3 mL of a 0.175 M0.175 M solution of Na2S. Calculate the theoretical yield of SnS2. then... The student recovers 0.410 g0.410 g of SnS2.SnS2. Calculate the percent yield of SnS2SnS2 that the student obtained.
Chemistry: The Molecular Science
5th Edition
ISBN:9781285199047
Author:John W. Moore, Conrad L. Stanitski
Publisher:John W. Moore, Conrad L. Stanitski
Chapter1: The Nature Of Chemistry
Section: Chapter Questions
Problem 127QRT
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Tin(IV) sulfide, SnS2,SnS2, a yellow pigment, can be produced using the following reaction.
SnBr4(aq)+2Na2S(aq)⟶4NaBr(aq)+SnS2(s)SnBr4(aq)+2Na2S(aq)⟶4NaBr(aq)+SnS2(s)
Suppose a student adds 49.3 mL49.3 mL of a 0.471 M0.471 M solution of SnBr4SnBr4 to 43.3 mL43.3 mL of a 0.175 M0.175 M solution of Na2S.
Calculate the theoretical yield of SnS2.
then...
The student recovers 0.410 g0.410 g of SnS2.SnS2. Calculate the percent yield of SnS2SnS2 that the student obtained.
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