Gibbs Adsorption Isotherm Derivation

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  • Опубліковано 25 січ 2025

КОМЕНТАРІ • 10

  • @Jin-ud8ij
    @Jin-ud8ij Рік тому +1

    Your videos are awesome. Makes my uni tuition look like a waste of money. Please keep it up. You're doing great work!

  • @toddslaughter5387
    @toddslaughter5387 8 років тому

    cheers for this derivation - was just given to us in the lecture notes with no explanation about where it came from, so this has really helped to understand it!

  • @seyedmeghdadtabatabai750
    @seyedmeghdadtabatabai750 2 роки тому

    Thanks for the video. It's really easy to digest

  • @Gotjahh
    @Gotjahh 8 років тому

    For my Physical Chemistry exam, I need to link the Gibbs Adsorption isotherm with the lattice model. This video made me understood the principles well, but I have some problems deriving a solution to find the physicochemical equilibrium at the surface. Help would be useful :D Watch 9:26 find Mewtwo.

  • @AdrianDV
    @AdrianDV 8 років тому

    Wow dude, thanks a lot. I'm studying this from Levine but sometimes it's tough to follow.

  • @feministit
    @feministit 6 років тому

    Thanks for the video! Why is the surface excess of the solvent equals zero?

    • @hagencalpoly6773
      @hagencalpoly6773  6 років тому

      You are welcome; I am happy it is useful. We can put the Gibbs dividing surface anywhere we want. The most common convention is to put the dividing surface at the location that would give a zero surface excess of solvent.

    • @sankarshanharidasan6751
      @sankarshanharidasan6751 Рік тому

      We take it to be zero to define the interface where no solvent molecule is present. This very definition allows us to ascribe positive negative or zero value to surface excess of any other component I. E. The solutes.

  • @alfredraj6396
    @alfredraj6396 2 роки тому +1

    Seeing your vdo in 2022

  • @rafaelscur2687
    @rafaelscur2687 7 років тому

    Thank you very much.