Mass of hemoglobin must be present per 100.0 mL of a solution to exert an osmotic pressure of 7 .25 mmHg at 25 0 C should be determined. Concept introduction: Osmosis is the diffusion of a fluid via a semi permeable membrane. When solution is separated by a semi permeable membrane, only solvent molecules can go through the membrane. The osmotic pressure of a solution is defined as the pressure difference required stopping this flow of solvent across the semi permeable membrane. The osmotic pressure is given by π = n R T V p − osmotic pressure n − number of moles R − universal gas constant T − absolute temperature V - volume
Mass of hemoglobin must be present per 100.0 mL of a solution to exert an osmotic pressure of 7 .25 mmHg at 25 0 C should be determined. Concept introduction: Osmosis is the diffusion of a fluid via a semi permeable membrane. When solution is separated by a semi permeable membrane, only solvent molecules can go through the membrane. The osmotic pressure of a solution is defined as the pressure difference required stopping this flow of solvent across the semi permeable membrane. The osmotic pressure is given by π = n R T V p − osmotic pressure n − number of moles R − universal gas constant T − absolute temperature V - volume
Solution Summary: The author explains that the osmotic pressure of a solution is defined as the pressure difference required stopping this flow of solvent across the semi permeable membrane.
Mass of hemoglobin must be present per 100.0 mL of a solution to exert an osmotic pressure of 7.25 mmHg at 25 0C should be determined.
Concept introduction:
Osmosis is the diffusion of a fluid via a semi permeable membrane. When solution is separated by a semi permeable membrane, only solvent molecules can go through the membrane. The osmotic pressure of a solution is defined as the pressure difference required stopping this flow of solvent across the semi permeable membrane. The osmotic pressure is given by