Osmotic experiment is done using equivalent dilutions of 2% urea. Note the erythrocyte membrane permeability constants (P) for urea, sodium (Na+) and chloride ions (Cl-) are 152, 0.25 and 0.1 x 10-4 cm.s-1, respectively. Select all of the following which apply. The permeability constants indicate that red blood cell membranes are much more permeable to urea, thus urea will enter the cells (a permeating solute) and exerts an osmotic effect with water leaving the cells. 1% NaCl is equivalent to 2% urea, because NaCl dissociates into Na+ and Cl-, thus resulting in a solution of the same osmolarity as the 2% urea, which does not dissociate. The permeability constants indicate that red blood cell membranes are much more permeable to urea, thus urea will enter the cells (a permeating solute) and does not exert an osmotic effect. The permeability constants indicate that red blood cell membranes are much less permeable to urea, thus urea will not enter the cells (a permeating solute) and does not exert an osmotic effect. 1% NaCl is equivalent to 1% urea in terms of osmolarity, so 2% urea has twice the effect on the cells as 1% NaCl. The permeability constants indicate that red blood cell membranes are much less permeable to urea, thus urea will enter the cells (a permeating solute) and does not exert an osmotic effect.

Human Physiology: From Cells to Systems (MindTap Course List)

9th Edition

ISBN:9781285866932

Author:Lauralee Sherwood

Publisher:Lauralee Sherwood

Chapter11: The Blood

Section: Chapter Questions

Problem 3SQE

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Osmotic experiment is done using equivalent dilutions of 2% urea. Note the erythrocyte membrane permeability constants (P) for urea, sodium (Na⁺) and chloride ions (Cl^-) are 152, 0.25 and 0.1 x 10^-4 cm.s^-1, respectively.

Select all of the following which apply.

The permeability constants indicate that red blood cell membranes are much more permeable to urea, thus urea will enter the cells (a permeating solute) and exerts an osmotic effect with water leaving the cells.

1% NaCl is equivalent to 2% urea, because NaCl dissociates into Na⁺ and Cl^-, thus resulting in a solution of the same osmolarity as the 2% urea, which does not dissociate.

The permeability constants indicate that red blood cell membranes are much more permeable to urea, thus urea will enter the cells (a permeating solute) and does not exert an osmotic effect.

The permeability constants indicate that red blood cell membranes are much less permeable to urea, thus urea will not enter the cells (a permeating solute) and does not exert an osmotic effect.

1% NaCl is equivalent to 1% urea in terms of osmolarity, so 2% urea has twice the effect on the cells as 1% NaCl.

The permeability constants indicate that red blood cell membranes are much less permeable to urea, thus urea will enter the cells (a permeating solute) and does not exert an osmotic effect.

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