Question:
When blood cells are placed in 1% (w/v) NaCl aqueous solution:
When blood cells are placed in 1% (w/v) NaCl aqueous solution:
Show Hint
Key Exam Tip:
When dealing with osmosis and cell behavior:
• Hypertonic Solution: Higher solute concentration outside the cell $\implies$ water moves out $\implies$ cell shrinks (crenation).
• Hypotonic Solution: Lower solute concentration outside the cell $\implies$ water moves in $\implies$ cell swells and may burst (hemolysis).
• Isotonic Solution: Equal solute concentration $\implies$ no net water movement $\implies$ cell maintains shape. For red blood cells, 0.9% NaCl is approximately isotonic.
When dealing with osmosis and cell behavior:
• Hypertonic Solution: Higher solute concentration outside the cell $\implies$ water moves out $\implies$ cell shrinks (crenation).
• Hypotonic Solution: Lower solute concentration outside the cell $\implies$ water moves in $\implies$ cell swells and may burst (hemolysis).
• Isotonic Solution: Equal solute concentration $\implies$ no net water movement $\implies$ cell maintains shape. For red blood cells, 0.9% NaCl is approximately isotonic.
Updated On: May 11, 2026
- Cell will burst
- Cell will shrink
- Cell will swell
- Cell remains as such
Show Solution
Verified By Collegedunia
The Correct Option is B
Solution and Explanation
The behavior of blood cells when placed in a solution of varying concentration is governed by the principle of osmosis. Osmosis is the net movement of solvent molecules (in this case, water) through a selectively permeable membrane from a region of higher solvent concentration (lower solute concentration) to a region of lower solvent concentration (higher solute concentration). Blood cells have a semipermeable membrane.
The concentration of the solution is given as 1% (w/v) NaCl. This concentration is generally considered hypertonic relative to the cytoplasm of mammalian red blood cells, which has an approximate osmotic concentration equivalent to 0.9% NaCl.
• Hypertonic Solution (1% NaCl): When blood cells are placed in a hypertonic solution, the concentration of solutes (NaCl) outside the cells is higher than inside the cells. Consequently, the concentration of water is lower outside the cells than inside. Water will move by osmosis from the region of higher water concentration (inside the cell) to the region of lower water concentration (outside the cell) across the cell membrane. This loss of water causes the cell to shrink, a process known as crenation.
• Hypotonic Solution: If the blood cells were placed in a hypotonic solution (e.g., pure water or a very dilute salt solution, < 0.9% NaCl), water would move into the cells, causing them to swell. In extreme cases, they could burst (hemolysis).
• Isotonic Solution (approx. 0.9% NaCl): In an isotonic solution, the solute concentration outside the cells is equal to that inside the cells. There is no net movement of water, and the cells maintain their normal shape and volume. Since the given solution is 1% NaCl, which is hypertonic, water will leave the blood cells, causing them to shrink. Final Answer: \(\boxed{b}\)
• Hypertonic Solution (1% NaCl): When blood cells are placed in a hypertonic solution, the concentration of solutes (NaCl) outside the cells is higher than inside the cells. Consequently, the concentration of water is lower outside the cells than inside. Water will move by osmosis from the region of higher water concentration (inside the cell) to the region of lower water concentration (outside the cell) across the cell membrane. This loss of water causes the cell to shrink, a process known as crenation.
• Hypotonic Solution: If the blood cells were placed in a hypotonic solution (e.g., pure water or a very dilute salt solution, < 0.9% NaCl), water would move into the cells, causing them to swell. In extreme cases, they could burst (hemolysis).
• Isotonic Solution (approx. 0.9% NaCl): In an isotonic solution, the solute concentration outside the cells is equal to that inside the cells. There is no net movement of water, and the cells maintain their normal shape and volume. Since the given solution is 1% NaCl, which is hypertonic, water will leave the blood cells, causing them to shrink. Final Answer: \(\boxed{b}\)
Was this answer helpful?
0
0
Top CUET Chemistry Questions
Among the following statements, choose the correct statements.
A. In Ionic solid, ions are the constituent particles.B. Ionic solids are soft.C. Ionic solid are electrical insulators in the solid state.D. Ionic solid conduct electricity in molten state.E. Ionic solid have low melting and boiling points.Choose the correct answer from the options given below:
Atoms of element B form hcp lattice and those of the element A occupy 2/3 rd of tetrahedral voids. What is the formula of the compound formed by the elements A and B?
- Consider the 1M aqueous solution of the following compounds and arrange than in the increasing order of elevation in the boiling points.
A. $C_6H_{12}O_6$
B. $NaCl $
C. $MgCl_2 $
D. $AlCl_3$
E. $Al_2(SO_4)_3 $
Choose the correct answer from the options given below: - Calculate the molarity of a solution containing 5g of NaOH in 450 mL solution .
Among the following statements related to ionic conductance. choose the correct statements.
A. Ionic conductance depends on the nature of electrolyteB. Ionic conductance is due to the movements of electronsC. Ionic conductance is also called electronic conductanceD. Ionic conductance depends on temperatureE. Ionic conductance also depends on the nature of solvent.Choose the correct answer from the options given below:
View More Questions
Top CUET Osmotic pressure Questions
- Arrange the following in increasing order of their osmotic pressure generation at 298 K:
(The cell wall is permeable to water and not to the solute molecules)
(A) If a cell containing 0.5 moles of solute dissolved in 1 L of water is immersed in pure water.
(B) If a cell containing 0.25 moles of solute dissolved in 1 L of water is immersed in pure water.
(C) If a cell containing 0.1 moles of solute dissolved in 0.01 L of water is immersed in pure water.
(D) If a cell containing 0.2 moles of solute dissolved in 0.05 L of water is immersed in pure water.
Choose the correct answer from the options given below: - Consider the following statements regarding osmotic pressure:
(A) Molar mass of a protein can be determined using the osmotic pressure method.
(B) The osmotic pressure is proportional to the molarity.
(C) Reverse osmosis occurs when a pressure larger than osmotic pressure is applied to the concentrated solution side.
(D) Edema occurs due to retention of water in tissue cells as a result of osmosis.
Choose the correct statements with reference to osmotic pressure: - When blood cells are placed in 1% (w/v) NaCl aqueous solution:
- When blood cells are placed in 1% (w/v) NaCl aqueous solution:
- When blood cells are placed in 1% (w/v) NaCl aqueous solution:
Top CUET Questions
Select the statements that are CORRECT regarding patterns of biodiversity.
(A) Species diversity increases as we move away from the equator towards the poles(B) The tropical Amazon rain forest in South America has the greatest biodiversity on earth.(C) There is more solar energy available in the temperate region than tropics.(D) Tropical environments are less seasonal relatively more constant and predictableWhich of the following hormone is not produced by placenta ?
- Individuals with karyotype of 44+XXY having overall masculine development with few feminine development like Gynaecomastia has _______ chromosomal disorder.
- Match List - I with List - II.Choose the correct answer from the options given below :
List - I
List - II
A Streptokinase I Blood-Cholestrol lowering agents B Cyclosporin II Clot Buster C Statins III Propionibacterium sharmanii D Swiss Cheese IV Immuno suppressive agent Which of the following option determines percolation and water holding capacity of soils ?
View More Questions