To determine the Ch content of a solid, 0.539 g of the solid was dissolved and treated with excess AgNO,. After the AgC (FM 143.132) precipitate was collected, washed, and dried it had a mass of 0.733 g. What is the weight percent of (FM 35.45) in the solid?
To determine the Ch content of a solid, 0.539 g of the solid was dissolved and treated with excess AgNO,. After the AgC (FM 143.132) precipitate was collected, washed, and dried it had a mass of 0.733 g. What is the weight percent of (FM 35.45) in the solid?
Introduction to Chemical Engineering Thermodynamics
8th Edition
ISBN:9781259696527
Author:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
Publisher:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
Chapter1: Introduction
Section: Chapter Questions
Problem 1.1P
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![To determine the Ch content of a solid, 0.539 g of the solid was
dissolved and treated with excess AgNO. After the Agd (FM 143.132)
precipitate was collected, washed, and dried it had a mass of 0.733 g.
What is the weight percent of C (FM 35.45) in the solid?
O73.5 wt%
12.8 wt%
33.7 wt%
O 18.2 wt%
24.8 wt%
Use the table to identify the strongest oxidizing agent
TABLE 14-1
Ordered standard reduction potentials
Oxidizing agent
Reducing agent
E(V
F>)+2e" 2F
0,(g)+2H" +2e" 0,()+H;O
2.890
2.075
MnO +8H +5c" == Mn +4H-O
1.507
Ag +eAg(s)
0.799
Cu +2e Cu(s)
0.339
2H +2e H2(g)
0.000
Ca +2e Ca(s)
-0.402
K +e K(s]
Li +e Lits)
-2,936
-3.040
Cu(s)
Lifs)
OF
O Mn0
Oxidizing power increases
Reducing power increases](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F7dc34f44-c0da-4881-92cf-f3f7cc0de69f%2F83ad7877-5a8e-4826-9e5d-426380180251%2F7plttgp_processed.jpeg&w=3840&q=75)
Transcribed Image Text:To determine the Ch content of a solid, 0.539 g of the solid was
dissolved and treated with excess AgNO. After the Agd (FM 143.132)
precipitate was collected, washed, and dried it had a mass of 0.733 g.
What is the weight percent of C (FM 35.45) in the solid?
O73.5 wt%
12.8 wt%
33.7 wt%
O 18.2 wt%
24.8 wt%
Use the table to identify the strongest oxidizing agent
TABLE 14-1
Ordered standard reduction potentials
Oxidizing agent
Reducing agent
E(V
F>)+2e" 2F
0,(g)+2H" +2e" 0,()+H;O
2.890
2.075
MnO +8H +5c" == Mn +4H-O
1.507
Ag +eAg(s)
0.799
Cu +2e Cu(s)
0.339
2H +2e H2(g)
0.000
Ca +2e Ca(s)
-0.402
K +e K(s]
Li +e Lits)
-2,936
-3.040
Cu(s)
Lifs)
OF
O Mn0
Oxidizing power increases
Reducing power increases
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