Question

"Solute B is NOT permeable to the cell membrane. A red blood is placed in a solution.

Inside the cell is 93% water and 7% Solute B. The solution it is placed in 99% water and
1% Solute B. Which way will water move? What will happen to the shape of the red
blood cell?

Answer 1

Water will move into the red blood cell in the hypotonic solution, causing it to swell and potentially rupture. Since solute B is not permeable to the cell membrane, water will rush into the cell to dilute the high concentration of solute B inside the cell. This will cause the red blood cell to swell and potentially rupture, a process known as hemolysis.

Step-by-step explanation:

Water will move into the red blood cell in the hypotonic solution. Since solute B is not permeable to the cell membrane, water will rush into the cell to dilute the high concentration of solute B inside the cell. This will cause the red blood cell to swell and potentially rupture, a process known as hemolysis.

Water will move into the red blood cell in the hypotonic solution, causing it to swell and potentially rupture. Since solute B is not permeable to the cell membrane, water will rush into the cell to dilute the high concentration of solute B inside the cell. This will cause the red blood cell to swell and potentially rupture, a process known as hemolysis.