Ficks law: Difference between revisions
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Fick's law can be used to measure flux (J). | |||
For example when the movement of ions is in a non-equilibrium state, net movement of solute across the membrane. | |||
Equation: | |||
= | J=P x C | ||
J= Flux (Units= [[Mole|Moles]]/CM/Second) | |||
P= Permeability (Units= CM/Second) | |||
C= Concentration Gradient for uncharged solute across the membrane (Units= Moles/ CM) | |||
''' | '''Example:''' | ||
J= ? | |||
= | P= 20 moles/cm/second | ||
= | C= 58 moles/cm | ||
== | J= 20x58= 1160 moles/cm/second | ||
Therefore flux (J) = 1160 [[Mole|moles]]/cm/second <ref>Steven L. Jacques, Scott A. Prahl [1998] Fick's 1st law of diffusion [Internet], Oregon Graduate Institute, ECE532 Biomedical Optics. Available from http://omlc.ogi.edu/classroom/ece532/class5/ficks1.html [Accessed 20th October 2013]</ref>. | |||
=== | === References === | ||
<references /> | |||
Latest revision as of 10:56, 21 October 2013
Fick's law can be used to measure flux (J).
For example when the movement of ions is in a non-equilibrium state, net movement of solute across the membrane.
Equation:
J=P x C
J= Flux (Units= Moles/CM/Second)
P= Permeability (Units= CM/Second)
C= Concentration Gradient for uncharged solute across the membrane (Units= Moles/ CM)
Example:
J= ?
P= 20 moles/cm/second
C= 58 moles/cm
J= 20x58= 1160 moles/cm/second
Therefore flux (J) = 1160 moles/cm/second [1].
References
- ↑ Steven L. Jacques, Scott A. Prahl [1998] Fick's 1st law of diffusion [Internet], Oregon Graduate Institute, ECE532 Biomedical Optics. Available from http://omlc.ogi.edu/classroom/ece532/class5/ficks1.html [Accessed 20th October 2013]