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Lewis acid-base theory

Lewis acid-base theory. Lewis acid-base theory. Very different from Brønsted-Lowrey acid-base. Lewis acid-base theory. Very different from Brønsted-Lowrey acid-base. Not dependent on protons or pH. Lewis acid-base theory. Definitions:.

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Lewis acid-base theory

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  1. Lewis acid-base theory

  2. Lewis acid-base theory Very different from Brønsted-Lowrey acid-base.

  3. Lewis acid-base theory Very different from Brønsted-Lowrey acid-base. Not dependent on protons or pH.

  4. Lewis acid-base theory Definitions: An acid is a lone-pair acceptor.

  5. Lewis acid-base theory Definitions: An acid is a lone-pair acceptor. H+ no electrons – by accepting 2 electrons it attains noble gas configuration.

  6. Lewis acid-base theory An acid is a lone-pair acceptor. H+ no electrons – by accepting 2 electrons it attains noble gas configuration. BF3 electron deficient compound - B needs 2 electrons for noble gas configuration.

  7. B Group III 3 valence electrons

  8. B Group III 3 valence electrons F Group VII 7 valence electrons

  9. B Group III 3 valence electrons F Group VII 7 valence electrons

  10. 6 electrons for boron rather than 8 Lewis Acid

  11. Lewis acid-base theory Definitions: Lewis base: lone-pair donor

  12. Lewis acid-base theory Definitions: Lewis base: lone-pair donor NH3 N has lone pair

  13. Group I Group V

  14. Lewis Base

  15. Lewis acid-base theory Lewis base: lone-pair donor NH3 - N has lone pair H2O - O has 2 lone pairs

  16. Lewis acid-base theory H3N : + BF3 H3N : BF3

  17. Lewis acid-base theory H3N : + BF3 H3N : BF3 Lewis base

  18. Lewis acid-base theory H3N : + BF3 H3N : BF3 Lewis acid Lewis base

  19. Lewis acid-base theory H3N : + BF3 H3N : BF3 Lewis acid Lewis base Both electrons in this bond come from nitrogen.

  20. Lewis acid-base theory H3N : + BF3 H3N : BF3 Lewis acid Lewis base Coordinatecovalentbond

  21. (CH3)3N : + BCl3 (CH3)3N : BCl3 (CH3)3N BCl3

  22. (CH3)3N : + BCl3 (CH3)3N : BCl3 (CH3)3N BCl3 This compound may be referred to as an adduct.

  23. CH3COOH(aq) + NH3(aq) NH4+(aq) + CH3COO-(aq)

  24. CH3COOH(aq) + NH3(aq) NH4+(aq) + CH3COO-(aq) NH3 Lewis base

  25. CH3COOH(aq) + NH3(aq) NH4+(aq) + CH3COO-(aq) NH3 Lewis base CH3COOH is not a Lewis acid.

  26. CH3COOH(aq) + H2O H3O+ + CH3COO- H+ + NH3(aq) NH4+(aq) + CH3COO-(aq) NH3 Lewis base CH3COOH is not a Lewis acid.

  27. CH3COOH(aq) + H2O H3O+ + CH3COO- H+ + NH3(aq) NH4+(aq) + CH3COO-(aq) NH3 Lewis base CH3COOH is not a Lewis acid. H3O+ H+ + H2O

  28. CH3COOH(aq) + NH3(aq) NH4+(aq) + CH3COO-(aq) NH3 Lewis base CH3COOH is not a Lewis acid. H+ is the Lewis acid.

  29. Al(OC2H5)3

  30. Al(OC2H5)3 Tri-ethoxy aluminum

  31. Al(OC2H5)3 Al is Group III - electron deficient like BF3.

  32. Al(OC2H5)3 Al is Group III - electron deficient like boron.

  33. Al(OC2H5)3 Al is Group III - electron deficient like boron. This molecule is a Lewis acid.

  34. Al(OC2H5)3 Al is Group III - electron deficient like boron. This molecule is a Lewis acid. O has lone pairs, it is a Lewis base

  35. Al(OC2H5)3 Al is Group III - electron deficient like boron. This molecule is a Lewis acid. O has lone pairs, it is a Lewis base The molecule is both a Lewis acid and base.

  36. x3 . Al . .

  37. Al(OC2H5)3

  38. Al(OC2H5)3 Covalent bonds

  39. Al(OC2H5)3 Electron deficient

  40. Al(OC2H5)3 Empirical formula

  41. Al(OC2H5)3 Empirical formula [Al(OC2H5)3]2 Molecular formula

  42. [Al(OC2H5)3]2 dimer

  43. [Al(OC2H5)3]2 Covalent bonds dimer

  44. [Al(OC2H5)3]2 Coordinate covalent bonds Covalent bonds dimer

  45. [Al(OC2H5)3]2 dimer

  46. AlCl3

  47. AlCl3 Empirical formula

  48. AlCl3 Empirical formula [AlCl3]2 Molecular formula

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