For the following problems, calculate the mass of solid needed to make the solution, and then prepare the solutions in the Virtual Lab. Use the solution viewer to verify that the solutions you created have the target concentrations. Outline the steps you took in making each solution and in verifying that it has the correct concentration. 1) 100 ml of solution that is 1.0 M in sodium cation, using sodium chloride. 2) 100 ml of a solution that is 0.7 m in chloride anion, using magnesium chloride. 3) 250 ml of a solution that is 0.34 M in sodium cation, using sodium sulfate decahydrate.
For the following problems, calculate the mass of solid needed to make the solution, and then prepare the solutions in the Virtual Lab. Use the solution viewer to verify that the solutions you created have the target concentrations. Outline the steps you took in making each solution and in verifying that it has the correct concentration. 1) 100 ml of solution that is 1.0 M in sodium cation, using sodium chloride. 2) 100 ml of a solution that is 0.7 m in chloride anion, using magnesium chloride. 3) 250 ml of a solution that is 0.34 M in sodium cation, using sodium sulfate decahydrate.
Chemistry for Today: General, Organic, and Biochemistry
9th Edition
ISBN:9781305960060
Author:Spencer L. Seager, Michael R. Slabaugh, Maren S. Hansen
Publisher:Spencer L. Seager, Michael R. Slabaugh, Maren S. Hansen
Chapter7: Sollutions And Colloids
Section: Chapter Questions
Problem 7.2E
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Molarity and Density: Making Solutions from Solids
For the following problems, calculate the mass of solid needed to make the solution, and then
prepare the solutions in the Virtual Lab. Use the solution viewer to verify that the solutions you
created have the target concentrations. Outline the steps you took in making each solution and in
verifying that it has the correct concentration.
1) 100 ml of solution that is 1.0 M in sodium cation, using sodium chloride.
2) 100 ml of a solution that is 0.7 m in chloride anion, using magnesium chloride.
3) 250 ml of a solution that is 0.34 M in sodium cation, using sodium sulfate decahydrate.
4) 500 ml of a solution that is 0.25 m in sulfate anion, using sodium sulfate decahydrate.
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