1 / 29

Solubility & Equilibrium

Explore the concept of solubility and equilibrium through Ksp calculations. Learn how to determine the solubility of compounds and compare their relative solubilities. Discover the relationship between Ksp values and the solubility of different salts.

scottandrew
Download Presentation

Solubility & Equilibrium

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Solubility & Equilibrium Ksp

  2. Solubility & Equilibrium • The beginning XY(s) ==> X+ + Y-

  3. Solubility & Equilibrium • The beginning XY(s) ==> X+ + Y- As time continues the [ions] begins to increase.

  4. Solubility & Equilibrium Greater the chance that they will collide and reform • XY(s) <== X+ + Y- • When it becomes saturated it reaches equilibrium. XY(s) <==> X+ + Y-

  5. Solubility & Equilibrium Equilibrium Constant for Solubility-Ksp Ksp = [X+]x [Y-]y  Solubility = molar solubility = mol/L • Be careful ~ sometimes given g/L or have to solve for g/L

  6. Solubility & Equilibrium Equilibrium Constant for Solubility-Ksp Ksp = [X+]x [Y-]y 1) Just ions, no solids

  7. Solubility & Equilibrium Equilibrium Constant for Solubility-Ksp Ksp = [X+]x [Y-]y 2) It doesn’t matter if you have stuff on the bottom.

  8. Solubility & Equilibrium Equilibrium Constant for Solubility-Ksp Ksp = [X+]x [Y-]y 3) Not solubility - that’s an equilibrium position(Q) (will more dissolve or not?)

  9. Solubility & Equilibrium Equilibrium Constant for Solubility-Ksp Ksp = [X+]x [Y-]y 4) Equilibrium so remember ICE

  10. Ksp Calculations The solubility of copper (I) bromide is 2.0 x 10-4mol/L at 25 C. Calculate Ksp.

  11. Ksp Calculations The solubility of copper(I) bromide is 2.0 x 10-4mol/L at 25°C. Calculate Ksp. CuBr(s) <==> Cu+1 + Br-1 I 0 0 C + x + x E 2.0 x10-4 2.0 x 10-4

  12. Ksp Calculations The solubility of copper(I) bromide is 2.0 x 10-4mol/L at 25°C. Calculate Ksp. CuBr(s) <==> Cu+1 + Br-1 Ksp = [2.0 x10-4][2.0 x 10-4] = 4.0 x 10-8 (no units for K)

  13. Ksp Calculations – Your Turn • The solubility of silver phosphate is 1.60 x 10-5 M. Calculate its Ksp.

  14. Ksp Calculations The Ksp value of copper(II) iodate is 1.4 x 10-7 at 25°C. Calculate its solubility. Cu(IO3)2(s) <==> Cu+2 + 2 IO3- I

  15. Ksp Calculations The Ksp value of copper(II) iodate is 1.4 x 10-7 at 25°C. Calculate its solubility. Cu(IO3)2(s) <==> Cu+2 + 2 IO3- I 0 0 C

  16. Ksp Calculations The Ksp value of copper(II) iodate is 1.4 x 10-7 at 25°C. Calculate its solubility. Cu(IO3)2(s) <==> Cu+2 + 2 IO3- I 0 0 C +x +2x E

  17. Ksp Calculations The Ksp value of copper(II) iodate is 1.4 x 10-7 at 25°C. Calculate its solubility. Cu(IO3)2(s) <==> Cu+2 + 2 IO3- I 0 0 C +x +2x E +x +2x

  18. Ksp Calculations The Ksp value of copper(II) iodate is 1.4 x 10-7 at 25°C. Calculate its solubility. Cu(IO3)2(s) <==> Cu+2 + 2 IO3- Ksp = [Cu+2][IO3-]2

  19. Ksp Calculations The Ksp value of copper(II) iodate is 1.4 x 10-7 at 25°C. Calculate its solubility. Cu(IO3)2(s) <==> Cu+2 + 2 IO3- Ksp = [Cu+2][IO3-]2 Ksp = [x][2x]2

  20. Ksp Calculations The Ksp value of copper(II) iodate is 1.4 x 10-7 at 25°C. Calculate its solubility. Cu(IO3)2(s) <==> Cu+2 + 2 IO3- Ksp = [Cu+2][IO3-]2 Ksp = [x][2x]2 1.4 x 10-7 = [x][2x]2

  21. Ksp Calculations The Ksp value of copper(II) iodate is 1.4 x 10-7 at 25°C. Calculate its solubility. Cu(IO3)2(s) <==> Cu+2 + 2 IO3- Ksp = [Cu+2][IO3-]2 Ksp = [x][2x]2 1.4 x 10-7 = [x][2x]2 1.4 x 10-7 = 4x3

  22. Ksp Calculations The Ksp value of copper(II) iodate is 1.4 x 10-7 at 25°C. Calculate its solubility. Cu(IO3)2(s) <==> Cu+2 + 2 IO3- Ksp = [Cu+2][IO3-]2 Ksp = [x][2x]2 1.4 x 10-7 = [x][2x]2 1.4 x 10-7 = 4x3 x = 3.3 x 10-3mol/L

  23. Ksp Calculations The Ksp value of copper(II) iodate is 1.4 x 10-7 at 25°C. Calculate its solubility. Cu(IO3)2(s) <==> Cu+2 + 2 IO3- [Cu+2] = 3.3 x 10-3mol/L [IO3-] =2(3.3 x 10-3mol/L) = 6.6 x 10-3mol/L

  24. Ksp Calculations – Your Turn • The Ksp of mercury (II) sulfide is 1.6 x 10-54. Find its molar solubility.

  25. Ksp Calculations What does it all mean? According to Ksp, EVERYTHING is at least very, very, very, very slightly soluble. Looking at the Ksp can helpyou figure out the solubility of compounds compared to each other – with a couple key rules about doing it!

  26. Ksp Calculations What does it all mean? • Salts that produce the same # of ions can be compared to see which one is the most/least soluble. AgBr vs AgI vs AgCl Ksp values 5.0x10-13 1.5x10-16 1.6x10-10 Appendix A25

  27. Ksp Calculations What does it all mean? • If the salts break into different # of ions, you can’t just look. Must calculate.

  28. Ksp Calculations 2 example problems: Which is more soluble: copper (II) carbonate or cadmium carbonate? Ksp = 2.5 x 10-10Ksp = 5.2 x 10-12

  29. Ksp Calculations 2 example problems: Which is more soluble: tin (II) hydroxide or strontium phosphate? Ksp = 3.0 x 10-27Ksp = 1.0 x 10-31

More Related