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Chapter 10: Problem 27

Explain the terms isotonic solution, crenation, and hemolysis.

Short Answer

Expert verified
An isotonic solution is a solution where solute concentration is the same on both sides of a semipermeable membrane, allowing water to move freely without a net movement in or out of the cell. Crenation is the process in which red blood cells shrink due to water loss through osmosis when placed in a hypertonic solution, affecting their ability to transport oxygen effectively. Hemolysis occurs when red blood cells rupture and release their content into the surrounding fluid, typically when placed in a hypotonic solution, leading to potential medical complications like anemia and jaundice.

Step by step solution

01

Isotonic Solution

An isotonic solution is a solution in which the concentration of solutes (such as ions, sugars, or proteins) is the same on both sides of a semipermeable membrane, like the cell membrane. This type of solution allows for the free movement of water across the membrane without causing a net movement of water into or out of the cell. In an isotonic solution, cells are in a state of equilibrium, meaning the rate of water molecules entering the cell is equal to the rate of water molecules leaving the cell. Examples of isotonic solutions include normal saline and some intravenous fluids that are administered to maintain hydration in patients.
02

Crenation

Crenation is the process in which red blood cells (RBCs) shrink due to the loss of water through osmosis when they are placed in a hypertonic solution. A hypertonic solution is a solution with a higher solute concentration compared to the cell's cytoplasm. Due to the higher solute concentration outside the cell, water will move out of the RBCs through the process of osmosis, resulting in a shriveled appearance of the RBCs. This can affect the cells' ability to transport oxygen effectively, leading to potential health problems.
03

Hemolysis

Hemolysis is the process in which red blood cells rupture and release their content, such as hemoglobin, into the surrounding fluid. This can occur when RBCs swell beyond their capacity to maintain their membrane integrity, which typically happens when they are placed in a hypotonic solution. A hypotonic solution is a solution that has a lower solute concentration compared to the cell's cytoplasm. In this case, water will move into the RBCs through the process of osmosis, causing them to swell and eventually burst. Hemolysis can lead to anemia, jaundice, and other medical complications if not managed properly.

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Most popular questions from this chapter

Which of the following statements is(are) true? Correct the false statements. a. The vapor pressure of a solution is directly related to the mole fraction of solute. b. When a solute is added to water, the water in solution has a lower vapor pressure than that of pure ice at \(0^{\circ} \mathrm{C}\). c. Colligative properties depend only on the identity of the solute and not on the number of solute particles present. d. When sugar is added to water, the boiling point of the solution increases above \(100^{\circ} \mathrm{C}\) because sugar has a higher boiling point than water.

You make \(20.0 \mathrm{g}\) of a sucrose \(\left(\mathrm{C}_{12} \mathrm{H}_{22} \mathrm{O}_{11}\right)\) and NaCl mixture and dissolve it in \(1.00 \mathrm{kg}\) water. The freezing point of this solution is found to be \(-0.426^{\circ} \mathrm{C}\). Assuming ideal behavior, calculate the mass percent composition of the original mixture, and the mole fraction of sucrose in the original mixture.

How would you prepare 1.0 L of an aqueous solution of sodium chloride having an osmotic pressure of 15 atm at \(22^{\circ} \mathrm{C} ?\) Assume sodium chloride exists as \(\mathrm{Na}^{+}\) and \(\mathrm{Cl}^{-}\) ions in solution.

An aqueous antifreeze solution is \(40.0 \%\) ethylene glycol \(\left(\mathrm{C}_{2} \mathrm{H}_{6} \mathrm{O}_{2}\right)\) by mass. The density of the solution is \(1.05 \mathrm{g} / \mathrm{cm}^{3}\) Calculate the molality, molarity, and mole fraction of the ethylene glycol.

Calculate the normality of each of the following solutions. a. \(0.250 M\space \mathrm {HCl}\) b. \(0.105 M\space \mathrm{H}_{2} \mathrm{SO}_{4}\) c. \(5.3 \times 10^{-2} M \space \mathrm{H}_{3} \mathrm{PO}_{4}\) d. \(0.134 M\space \mathrm{NaOH}\) e. \(0.00521 M \space \mathrm{Ca}(\mathrm{OH})_{2}\) What is the equivalent mass for each of the acids or bases listed above?
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