The concentration of Cut ions in the water (which also contains sulfate ions) discharged from a certain industrial plant is determined by adding excess sodium sulfide (NazS) solution to 0.800 Lof the water. The molecular equation is NazS(aq) + CusO (aq) → NazSO:(aq) + Cus(s). Calculate the molar concentration of Cut in the water sample if 0.0177 g of solid Cus is formed. 1.20 X 10-4 M 2.31 X 10-4 M 4.6 X10-3 M 2.31 X 10-3 M
The concentration of Cut ions in the water (which also contains sulfate ions) discharged from a certain industrial plant is determined by adding excess sodium sulfide (NazS) solution to 0.800 Lof the water. The molecular equation is NazS(aq) + CusO (aq) → NazSO:(aq) + Cus(s). Calculate the molar concentration of Cut in the water sample if 0.0177 g of solid Cus is formed. 1.20 X 10-4 M 2.31 X 10-4 M 4.6 X10-3 M 2.31 X 10-3 M
Chemistry
10th Edition
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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Transcribed Image Text:The concentration of Cut ions in the water (which also contains sulfate
ions) discharged from a certain industrial plant is determined by adding
excess sodium sulfide (NazS) solution to 0.800 Lof the water. The
molecular equation is NazS(aq) + CusO (aq) → NazSO:(aq) + Cus(s).
Calculate the molar concentration of Cut in the water sample if 0.0177 g
of solid Cus is formed.
1.20 X 10-4 M
2.31 X 10-4 M
4.6 X10-3 M
2.31 X 10-3 M
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