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| {{Harbor RME NP}} | | {{Harbor RME NP}} |
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| ===Standard fluid dynamics notation===
| | {{#widget:Iframe |
| In standard fluid dynamics notation:<ref name=Kirby>{{cite book | author=Kirby, B.J. | title=Micro- and Nanoscale Fluid Mechanics: Transport in Microfluidic Devices.| url=http://www.kirbyresearch.com/textbook| year=2010| publisher=Cambridge University Press| isbn=978-0-521-11903-0}}</ref><ref name=Bruus>{{cite book | author=Bruus, H. | title=Theoretical Microfluidics | year= 2007}}</ref>
| | |url=http://docs.google.com/present/embed?id=dcn37mcz_22cmnwnwf8 |
| :<math> \Delta P = \frac{8 \mu L Q}{ \pi r^4} </math>
| | |width=410 |
| or
| | |height=342 |
| :<math> \Delta P = \frac{128 \mu L Q}{ \pi d^4}</math>
| | |border=0 |
| or
| | }} |
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| <math> \Delta P = \frac{32 \mu L v}{ \ d^2}</math>
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| where:
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| :<math>\Delta P </math> is the pressure loss
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| :<math>L</math> is the length of pipe
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| :<math> \mu </math> is the [[dynamic viscosity]]
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| :<math>Q</math> is the [[volumetric flow rate]]
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| :<math>r</math> is the [[radius]]
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| :<math>d</math> is the [[diameter]]
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| :[[pi|<math> \pi </math>]] is the mathematical constant [[Pi]]
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| :<math>v</math> is the [[velocity]]
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| ===AID-Medic=== | | ===AID-Medic=== |
Revision as of 12:56, 13 January 2016
