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Transport Phenomena and Diffusion (24.1-24.2) Net motion of particles occurs when a system is disturbed from equilibrium (e.g., concentration gradients)concentration.

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Presentation on theme: "Transport Phenomena and Diffusion (24.1-24.2) Net motion of particles occurs when a system is disturbed from equilibrium (e.g., concentration gradients)concentration."— Presentation transcript:

1 Transport Phenomena and Diffusion (24.1-24.2) Net motion of particles occurs when a system is disturbed from equilibrium (e.g., concentration gradients)concentration gradients – Flux is the movement of particles through a given area in a given amount of time – Flux opposes concentration gradients (i.e., it restores equilibrium) Diffusion is the natural motion of particles in response to a spatial concentration gradient – Particles naturally want disperse into an even distribution in space (e.g., odors from volatile liquids) Fick’s first law relates particle flux to spatial concentration gradients – Diffusion coefficient (D) is related to how large the flux is, which in turn determines how quickly equilibrium is re-established (related to physical properties of particles)

2 Concentration Gradients and Equilibrium (24.3) Flux is related to how quickly equilibrium is accomplished – Larger flux allows equilibrium to be established faster (depends on D and conc. gradient) – Fick’s second law relates concentration changes to time and spaceconcentration changes The root mean square (rms) distance is a measure of how far particles translate in the system in a given amount of time – Particles don’t move in a linear fashion due to collisions, they go on random walksrandom walks – The distance particles travel depends on how much time has passed (t) and on how quickly the particles diffuse (D) Since D is so important, how do we relate it to easy to understand physical quantities? – We use classical physics (whew!)

3 Diffusion Coefficients and Friction (24.5) Einstein came up with a relationship for the diffusion coefficient and other physical quantities – Diffusion rates depend on temperature and on the frictional forces of the medium in which the particle moves For spherical molecules, the frictional force has a simple form (Stokes- Einstein) – Friction is proportional to the size of the molecule and the viscosity of the medium Biomolecules are not usually spherical, but frictional forces are still useful – The fraction of the true frictional force to that of the idealized sphere (f/f 0 ) is always greater than one (shape or Perrin factors) – Shape of biomolecules can be elucidated from the shape factors

4 Concentration Gradient and Flux

5 Concentration Gradients and Time

6 Time Evolution of Diffusion

7 RMS Displacement and Random Walks


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