Chad's General Chemistry Videos - Complete Course

Chad's General Chemistry Videos - Complete Course

Chad's Prep via YouTube Direct link

19.6 Reduction Potentials and the Relationship between Cell Potential, Delta G, and the Equilibrium

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19.6 Reduction Potentials and the Relationship between Cell Potential, Delta G, and the Equilibrium

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Chad's General Chemistry Videos - Complete Course

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  1. 1 1.1 Matter
  2. 2 1.2 Units, Conversions, and Significant Figures
  3. 3 2.1 Atomic Structure and Introduction to the Periodic Table
  4. 4 2.2 Classifying Compounds
  5. 5 2.3 Nomenclature of Ionic Compounds
  6. 6 2.4 Nomenclature of Molecular Compounds
  7. 7 2.5 Naming Acids
  8. 8 3.1 Reactions and Calculations With Moles
  9. 9 3.2 Mass Percents and Empirical and Molecular Formulas
  10. 10 3.3 Limiting Reagent Calculations
  11. 11 4.1 Solutions and Electrolytes
  12. 12 4.2 Double Displacement Reactions
  13. 13 4.3 Molarity, Solution Stoichiometry, and Dilutions
  14. 14 4.4 Oxidation Reduction Reactions
  15. 15 5.1 The First Law of Thermodynamics, Enthalpy, and Phase Changes
  16. 16 5.2 Calorimetry
  17. 17 5.3 Hess's Law and Enthalpies of Formation
  18. 18 6.1 Electromagnetic Radiation and the Photoelectric Effect
  19. 19 6.2 Electronic Transitions Absorption and Emission
  20. 20 6.3 The de Broglie Relation, the Heisenberg Uncertainty Principle, and Orbitals
  21. 21 6.4 Quantum Numbers
  22. 22 6.5 Electronic Configurations
  23. 23 7.1 Overview of Trends and Atomic Radius
  24. 24 7.2 Ionization Energy
  25. 25 7.3 Electron Affinity, Electronegativity, and Descriptive Chemistry
  26. 26 8.1 Bonding and Lattice Energy
  27. 27 8.2 Lewis Dot Structures
  28. 28 8.3 Bond Enthalpies
  29. 29 9.1 VSEPR Theory and Molecular Geometry
  30. 30 9.2 Hybridization
  31. 31 9.3 Polarity
  32. 32 9.4 Sigma and Pi Bonds
  33. 33 9.5 Molecular Orbital Theory
  34. 34 10.1 Properties of Gases and the Ideal Gas Law
  35. 35 10.2 Gas Laws
  36. 36 10.3 Partial Pressures, Density, and the Volume of Ideal Gases at STP
  37. 37 10.4 Graham's Law of Effusion and Real Gases
  38. 38 11.1 Intermolecular Forces
  39. 39 11.2 Phase Diagrams
  40. 40 13.1 Introduction to Colligative Properties, the van't Hoff factor, and Molality
  41. 41 13.2 Calculations Involving Freezing Point Depression and Boiling Point Elevation
  42. 42 13.3 Vapor Pressure Depression and Raoult's Law
  43. 43 13.4 Osmotic Pressure
  44. 44 14.1 Rates and Rate Expressions
  45. 45 14.2 Rate Laws
  46. 46 14.3 Mechanisms, Catalysts, and Reaction Coordinate Diagrams
  47. 47 14.4 Collision Theory and the Arrhenius Equation
  48. 48 14.5 Integrated Rate Laws and Half Lives
  49. 49 15.1 Equilibrium and Equilibrium Constants
  50. 50 15.2 Le Chatelier's Principle
  51. 51 15.3 Equilibrium Calculations
  52. 52 16.1 Introduction to Acids and Bases
  53. 53 16.2 Introduction to the pH Scale and pH Calculations
  54. 54 16.3 pH Calculations for Strong Acids and Bases
  55. 55 16.4 pH Calculations for Weak Acids and Bases
  56. 56 16.5 Acidity and Basicity of Salts
  57. 57 17.1 Buffers
  58. 58 17.2 Titrations and Titration Curves
  59. 59 17.3 pH Calculations Involving Titrations
  60. 60 17.4 Solubility and Ksp
  61. 61 17.5 The Common Ion Effect and Precipitation
  62. 62 17.6 pH Effects on Solubility
  63. 63 18.1 The Laws of Thermodynamics
  64. 64 18.2 Entropy
  65. 65 18.3 Gibbs Free Energy and the Relationship between Delta G, Delta H, and Delta S
  66. 66 18.4 Delta G, Delta H, Delta S and Formation Reactions
  67. 67 18.5 Gibbs Free Energy and the Equilibrium Constant
  68. 68 19.1 Oxidation Reduction Reactions and Oxidation States
  69. 69 19.2 Balancing Oxidation Reduction Reactions
  70. 70 19.3 Galvanic Cells
  71. 71 19.4 Standard Cell Potentials aka emf or Voltage
  72. 72 19.5 Nonstandard Cell Potentials the Nernst Equation
  73. 73 19.6 Reduction Potentials and the Relationship between Cell Potential, Delta G, and the Equilibrium
  74. 74 19.7 Electrolytic Cells
  75. 75 19.8 Electrolysis Calculations
  76. 76 20.1 Introduction to Nuclear Chemistry and Trends in Radioactivity
  77. 77 20.2 Balancing Nuclear Reactions Updated
  78. 78 20.3 Routes of Nuclear Decay, Fission, and Fusion
  79. 79 20.4 Kinetics of Nuclear Decay
  80. 80 20.5 Energy of Nuclear Reactions and Nuclear Binding Energy
  81. 81 21.1 Introduction to Coordination Chemistry
  82. 82 21.2 Nomenclature of Complex Ions and Coordination Compounds
  83. 83 21.3 Isomers
  84. 84 21.4 Review of Electronic Configurations
  85. 85 21.5 Crystal Field Theory
  86. 86 21.6 Color
  87. 87 21.7 Paramagnetism vs Diamagnetism

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