Complete the (aq) dissolution equations for each solute, identify the solution as electrolyte or not (EL: Y ? N), and use the molarity of solute formula given to find the total molarity of all solute c.p’s present in that solution. Follow the example in the first row: Solute balanced c.p’s in (aq) state EL: Y ? N molarity of solute formula total molarity of all solute c.p’s in solution Li2SO4(s) 2Li+(aq) + SO42–(aq) Y 0.90 M 0.9 + 2 × 0.9 = 2.7 M NH3(g) 1.40 M Cu(H2PO4)2 0.72 M Al(OH)3(s) N2(g) 0.012 M
Complete the (aq) dissolution equations for each solute, identify the solution as electrolyte or not (EL: Y ? N), and use the molarity of solute formula given to find the total molarity of all solute c.p’s present in that solution. Follow the example in the first row: Solute balanced c.p’s in (aq) state EL: Y ? N molarity of solute formula total molarity of all solute c.p’s in solution Li2SO4(s) 2Li+(aq) + SO42–(aq) Y 0.90 M 0.9 + 2 × 0.9 = 2.7 M NH3(g) 1.40 M Cu(H2PO4)2 0.72 M Al(OH)3(s) N2(g) 0.012 M
Introductory Chemistry: A Foundation
9th Edition
ISBN:9781337399425
Author:Steven S. Zumdahl, Donald J. DeCoste
Publisher:Steven S. Zumdahl, Donald J. DeCoste
Chapter15: Solutions
Section: Chapter Questions
Problem 88QAP
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Complete the (aq) dissolution equations for each solute, identify the solution as electrolyte or not (EL: Y ? N), and use the molarity of solute formula given to find the total molarity of all solute c.p’s present in that solution. Follow the example in the first row:
Solute |
balanced c.p’s in (aq) state |
EL: Y ? N |
molarity of solute formula |
total molarity of all solute c.p’s in solution |
Li2SO4(s) |
2Li+(aq) + SO42–(aq) |
Y |
0.90 M |
0.9 + 2 × 0.9 = 2.7 M |
NH3(g) |
|
|
1.40 M |
|
Cu(H2PO4)2 |
|
|
0.72 M |
|
Al(OH)3(s) |
|
|
|
|
N2(g) |
|
|
0.012 M |
|
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