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The effects of hypotonic,
   hypertonic and isotonic
solution on animal and plant
            cells.
• Hypertonic
- Concentration with higher solute concentration
  and less water concentration
• Hypotonic
- lower solute concentration and more water
  concentration
• Isotonic
- Solution in which water molecule and solute
  molecule are equal in concentration.
Animal and plant cell In an
       isotonic solution
• Isotonic solution is a solution in which the
  concentration of solutes is equal, so:
- Water diffuses into and out of the cell at
  equal rates.
- There’s no net movement of water across
  the plasma membrane
- The cells retain their normal shape
The effects of hypotonic, hypertonic and isotonic
Animal and plant cells in a
         hypotonic solution
• Solution which contain higher concentration of
  water and lower concentration of solutes is
  called as hypotonic solution.
• Since the concentration of water is higher
  outside the cell, there is a net movement of
  water from outside into the cell.
• Cell gains water, swells and the internal
  pressure increases. Eventually burst
  (haemolysis).
The effects of hypotonic, hypertonic and isotonic
The effects of hypotonic, hypertonic and isotonic
The effects of hypertonic solution
     in animal and plant cell
• Contain higher concentration of solutes and less
  of water than a cell.
• Since the concentration of water is higher
  within the cell, there is a net movement of water
  from inside to outside of the cell. (water leaves
  the cell by osmosis)
• Causes the cell to shrink as its internal pressure
  decreases.
The effects of hypotonic, hypertonic and isotonic
The effects of hypotonic, hypertonic and isotonic
Hypertonic solution on plant cell
• Water diffuses out of the large central vacuole
  by osmosis. Water lose from both vacuole and
  cytoplasm cause to shrink.
• Plasma membrane pulls away from the cell wall.
  (plasmolysis).
• Become flaccid and less turgid.
• Cell wall doesn’t shrink because it is strong and
  rigid.
• If plasmolysis continues, death may result.
• If we placed the plasmolysed plant cell in a
  hypotonic solution (pure water), water
  moves into the cell by osmosis and
  become turgid again. (deplasmolysis)
The effects of hypotonic, hypertonic and isotonic
Food preservation
• The concept of osmosis and diffusion are applied
  in the preservation of food, such as fruits, fish
  and vegetables by using preservatives (salt,
  sugar/ vinegar)
• Salt solution of hypertonic to tissue of fish. So
  water leaves the fish tissue and enter the salt
  solution by osmosis.
• Fish become dehydrated and cell crenate.
  Therefore, bacteria can’t grow in fish tissue and
  bacteria cell will crenate.
• Preserved fish don’t decay so soon and last
  longer.
• Preservation with vinegar
• Mangoes are soaked in vinegar which has low
  pH, vinegar diffuses into the tissues of the
  mangoes and become acidic.
• Low pH prevents the growth of microorganism
  in mangoes and preserved mangoes can last
  longer.

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The effects of hypotonic, hypertonic and isotonic

  • 1. The effects of hypotonic, hypertonic and isotonic solution on animal and plant cells.
  • 2. • Hypertonic - Concentration with higher solute concentration and less water concentration • Hypotonic - lower solute concentration and more water concentration • Isotonic - Solution in which water molecule and solute molecule are equal in concentration.
  • 3. Animal and plant cell In an isotonic solution • Isotonic solution is a solution in which the concentration of solutes is equal, so: - Water diffuses into and out of the cell at equal rates. - There’s no net movement of water across the plasma membrane - The cells retain their normal shape
  • 5. Animal and plant cells in a hypotonic solution • Solution which contain higher concentration of water and lower concentration of solutes is called as hypotonic solution. • Since the concentration of water is higher outside the cell, there is a net movement of water from outside into the cell. • Cell gains water, swells and the internal pressure increases. Eventually burst (haemolysis).
  • 8. The effects of hypertonic solution in animal and plant cell • Contain higher concentration of solutes and less of water than a cell. • Since the concentration of water is higher within the cell, there is a net movement of water from inside to outside of the cell. (water leaves the cell by osmosis) • Causes the cell to shrink as its internal pressure decreases.
  • 11. Hypertonic solution on plant cell • Water diffuses out of the large central vacuole by osmosis. Water lose from both vacuole and cytoplasm cause to shrink. • Plasma membrane pulls away from the cell wall. (plasmolysis). • Become flaccid and less turgid. • Cell wall doesn’t shrink because it is strong and rigid.
  • 12. • If plasmolysis continues, death may result. • If we placed the plasmolysed plant cell in a hypotonic solution (pure water), water moves into the cell by osmosis and become turgid again. (deplasmolysis)
  • 14. Food preservation • The concept of osmosis and diffusion are applied in the preservation of food, such as fruits, fish and vegetables by using preservatives (salt, sugar/ vinegar) • Salt solution of hypertonic to tissue of fish. So water leaves the fish tissue and enter the salt solution by osmosis. • Fish become dehydrated and cell crenate. Therefore, bacteria can’t grow in fish tissue and bacteria cell will crenate. • Preserved fish don’t decay so soon and last longer.
  • 15. • Preservation with vinegar • Mangoes are soaked in vinegar which has low pH, vinegar diffuses into the tissues of the mangoes and become acidic. • Low pH prevents the growth of microorganism in mangoes and preserved mangoes can last longer.