@@carmenramosvellon2182 The total number of adsorbed atoms will be proportional to the total area. That's an extensive quantity, for which Theta is a corresponding intensive quantity
Yes, this k is Boltzmann's constant (k = 1.38x10⁻²³ J/K) which is the same as the gas constant. The equation that uses kT is introduced in the previous video: ruclips.net/video/yNWJcZIhmnk/видео.html And the Boltzmann constant is discussed in more detail in an earlier video: ruclips.net/video/sI6I3JZ4tP4/видео.html
Prof. Stuart - you videos are absolutely a class of their own! You are a very effective teacher.
That's very kind
such a good source
What if we want to know the average number of adsorbed atoms and their energy?
@@carmenramosvellon2182 The total number of adsorbed atoms will be proportional to the total area. That's an extensive quantity, for which Theta is a corresponding intensive quantity
What is this k in KT though?
Was that universal gas constant?
Yes, this k is Boltzmann's constant (k = 1.38x10⁻²³ J/K) which is the same as the gas constant.
The equation that uses kT is introduced in the previous video: ruclips.net/video/yNWJcZIhmnk/видео.html
And the Boltzmann constant is discussed in more detail in an earlier video: ruclips.net/video/sI6I3JZ4tP4/видео.html