Application of osmotic pressure into the capillary bed

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Presentation transcript:

Application of osmotic pressure into the capillary bed Hydrostatic pressure is 10 outside the capillary Concentration of NaCl 15% H20 leaves the capillary Hydrostatic pressure is 10 inside the capillary Concentration of NaCl is 10%

Application of osmotic pressure into the capillary bed Hydrostatic pressure is now 12 outside the capillary Concentration is 12% H20 stops moving out of the cell due to osmotic pressures But other water molecules move into the capillary because the Hydrostatic pressure outside is now higher Hydrostatic pressure is 8 inside the capillary Concentration is 12%

Application of osmotic pressure into the capillary bed Hydrostatic pressure is 11 outside the capillary Concentration is 10% As water moves back into the capillary, its hydrostatic pressure rises which should push water back out, but because the concentration is higher Water will keep getting pulled back until equilibration is reached Hydrostatic pressure is 11 inside the capillary Concentration is 11%