When Animal Cell Is Placed In Hypotonic Solution - CBSE Papers, Questions, Answers, MCQ ...: Class 9 - Ch5 ... : If an animal cell is placed in a hypotonic environment, the cell will gain water, swell, and possibly burst.

When Animal Cell Is Placed In Hypotonic Solution - CBSE Papers, Questions, Answers, MCQ ...: Class 9 - Ch5 ... : If an animal cell is placed in a hypotonic environment, the cell will gain water, swell, and possibly burst.. If the medium is hypotonic relative to the cell cytoplasm, the cell will gain water through osmosis. 4.1.4 osmolality of fixative solution. Apr 26, 2018 · in osmosis, water freely moves across a membrane from an area of low solute concentration, or hypotonic solution, to one of high solute concentration, or hypertonic solution. Animal cells swell or shrink when placed in hypotonic or hypertonic solutions, respectively. Jan 06, 2011 · unlike plants, animal cells do not have rigid walls surrounding their cellular membranes.

Isotonic fixatives produce swollen cells and poor fixation, as do hypotonic fixatives. If an animal cell is placed in a hypotonic environment, the cell will gain water, swell, and possibly burst. As seen in figure 22.2, a cell placed in water tends to swell due to gain of water from the hypotonic or "low salt" environment. Hypertonic solutions give rise to cell shrinkage. The osmolality of fixatives has a major effect on tissue morphology.

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4.1.4 osmolality of fixative solution. Suppose an animal or a plant cell is placed in a solution of sugar or salt in water. Apr 28, 2017 · for example, in the diagram below, the solution around the cell is hypertonic, meaning that it has a higher concentration of solute, so a lower water potential, than the inside of the cell. If the medium is isotonic, there will be no net movement of water across the cell membrane. Apr 26, 2018 · in osmosis, water freely moves across a membrane from an area of low solute concentration, or hypotonic solution, to one of high solute concentration, or hypertonic solution. If an animal cell is placed in a hypotonic environment, the cell will gain water, swell, and possibly burst. As seen in figure 22.2, a cell placed in water tends to swell due to gain of water from the hypotonic or "low salt" environment. Jan 06, 2011 · unlike plants, animal cells do not have rigid walls surrounding their cellular membranes.

Apr 28, 2017 · for example, in the diagram below, the solution around the cell is hypertonic, meaning that it has a higher concentration of solute, so a lower water potential, than the inside of the cell.

If the medium is isotonic, there will be no net movement of water across the cell membrane. Jan 06, 2011 · unlike plants, animal cells do not have rigid walls surrounding their cellular membranes. Animal cells swell or shrink when placed in hypotonic or hypertonic solutions, respectively. Suppose an animal or a plant cell is placed in a solution of sugar or salt in water. The osmolality of fixatives has a major effect on tissue morphology. 4.1.4 osmolality of fixative solution. If the medium is hypotonic relative to the cell cytoplasm, the cell will gain water through osmosis. Isotonic fixatives produce swollen cells and poor fixation, as do hypotonic fixatives. If an animal cell is placed in a hypotonic environment, the cell will gain water, swell, and possibly burst. Hypertonic solutions give rise to cell shrinkage. To maintain their normal cytosolic osmolarity and hence cell volume, animal cells must export na + and other ions that leak or are transported from the extracellular space into the cytosol. A cell placed in a solution with higher salt concentration, on the other hand, tends to make the membrane shrivel up due to loss of water into the hypertonic or "high salt" environment. When the solute concentration is equal on both sides of the membrane, the solution is said to be isotonic.

A cell without a rigid wall will lose water and shrivel if placed in a hypertonic environment. If an animal cell is placed in a hypotonic environment, the cell will gain water, swell, and possibly burst. Apr 26, 2018 · in osmosis, water freely moves across a membrane from an area of low solute concentration, or hypotonic solution, to one of high solute concentration, or hypertonic solution. When the solute concentration is equal on both sides of the membrane, the solution is said to be isotonic. 4.1.4 osmolality of fixative solution.

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As seen in figure 22.2, a cell placed in water tends to swell due to gain of water from the hypotonic or "low salt" environment. Animal cells swell or shrink when placed in hypotonic or hypertonic solutions, respectively. If an animal cell is placed in a hypotonic environment, the cell will gain water, swell, and possibly burst. The osmolality of fixatives has a major effect on tissue morphology. Hypertonic solutions give rise to cell shrinkage. If the medium is hypotonic relative to the cell cytoplasm, the cell will gain water through osmosis. Jan 06, 2011 · unlike plants, animal cells do not have rigid walls surrounding their cellular membranes. When the solute concentration is equal on both sides of the membrane, the solution is said to be isotonic.

When the solute concentration is equal on both sides of the membrane, the solution is said to be isotonic.

Suppose an animal or a plant cell is placed in a solution of sugar or salt in water. A cell placed in a solution with higher salt concentration, on the other hand, tends to make the membrane shrivel up due to loss of water into the hypertonic or "high salt" environment. Jan 06, 2011 · unlike plants, animal cells do not have rigid walls surrounding their cellular membranes. If the medium is hypotonic relative to the cell cytoplasm, the cell will gain water through osmosis. The osmolality of fixatives has a major effect on tissue morphology. Animal cells swell or shrink when placed in hypotonic or hypertonic solutions, respectively. Isotonic fixatives produce swollen cells and poor fixation, as do hypotonic fixatives. A cell without a rigid wall will lose water and shrivel if placed in a hypertonic environment. Hypertonic solutions give rise to cell shrinkage. Apr 28, 2017 · for example, in the diagram below, the solution around the cell is hypertonic, meaning that it has a higher concentration of solute, so a lower water potential, than the inside of the cell. If the medium is isotonic, there will be no net movement of water across the cell membrane. Apr 26, 2018 · in osmosis, water freely moves across a membrane from an area of low solute concentration, or hypotonic solution, to one of high solute concentration, or hypertonic solution. When the solute concentration is equal on both sides of the membrane, the solution is said to be isotonic.

4.1.4 osmolality of fixative solution. Hypertonic solutions give rise to cell shrinkage. If an animal cell is placed in a hypotonic environment, the cell will gain water, swell, and possibly burst. If the medium is hypotonic relative to the cell cytoplasm, the cell will gain water through osmosis. Jan 06, 2011 · unlike plants, animal cells do not have rigid walls surrounding their cellular membranes.

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Animal cells swell or shrink when placed in hypotonic or hypertonic solutions, respectively. Apr 28, 2017 · for example, in the diagram below, the solution around the cell is hypertonic, meaning that it has a higher concentration of solute, so a lower water potential, than the inside of the cell. If the medium is hypotonic relative to the cell cytoplasm, the cell will gain water through osmosis. Suppose an animal or a plant cell is placed in a solution of sugar or salt in water. To maintain their normal cytosolic osmolarity and hence cell volume, animal cells must export na + and other ions that leak or are transported from the extracellular space into the cytosol. The osmolality of fixatives has a major effect on tissue morphology. When the solute concentration is equal on both sides of the membrane, the solution is said to be isotonic. Isotonic fixatives produce swollen cells and poor fixation, as do hypotonic fixatives.

The osmolality of fixatives has a major effect on tissue morphology.

As seen in figure 22.2, a cell placed in water tends to swell due to gain of water from the hypotonic or "low salt" environment. Suppose an animal or a plant cell is placed in a solution of sugar or salt in water. Isotonic fixatives produce swollen cells and poor fixation, as do hypotonic fixatives. Jan 06, 2011 · unlike plants, animal cells do not have rigid walls surrounding their cellular membranes. When the solute concentration is equal on both sides of the membrane, the solution is said to be isotonic. Apr 28, 2017 · for example, in the diagram below, the solution around the cell is hypertonic, meaning that it has a higher concentration of solute, so a lower water potential, than the inside of the cell. If the medium is hypotonic relative to the cell cytoplasm, the cell will gain water through osmosis. If the medium is isotonic, there will be no net movement of water across the cell membrane. Animal cells swell or shrink when placed in hypotonic or hypertonic solutions, respectively. A cell placed in a solution with higher salt concentration, on the other hand, tends to make the membrane shrivel up due to loss of water into the hypertonic or "high salt" environment. The osmolality of fixatives has a major effect on tissue morphology. Apr 26, 2018 · in osmosis, water freely moves across a membrane from an area of low solute concentration, or hypotonic solution, to one of high solute concentration, or hypertonic solution. Hypertonic solutions give rise to cell shrinkage.

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Apr 28, 2017 · for example, in the diagram below, the solution around the cell is hypertonic, meaning that it has a higher concentration of solute, so a lower water potential, than the inside of the cell. Apr 26, 2018 · in osmosis, water freely moves across a membrane from an area of low solute concentration, or hypotonic solution, to one of high solute concentration, or hypertonic solution. If an animal cell is placed in a hypotonic environment, the cell will gain water, swell, and possibly burst. Animal cells swell or shrink when placed in hypotonic or hypertonic solutions, respectively. A cell without a rigid wall will lose water and shrivel if placed in a hypertonic environment.

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Apr 26, 2018 · in osmosis, water freely moves across a membrane from an area of low solute concentration, or hypotonic solution, to one of high solute concentration, or hypertonic solution. Apr 28, 2017 · for example, in the diagram below, the solution around the cell is hypertonic, meaning that it has a higher concentration of solute, so a lower water potential, than the inside of the cell. 4.1.4 osmolality of fixative solution. To maintain their normal cytosolic osmolarity and hence cell volume, animal cells must export na + and other ions that leak or are transported from the extracellular space into the cytosol. If the medium is hypotonic relative to the cell cytoplasm, the cell will gain water through osmosis.

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Hypertonic solutions give rise to cell shrinkage. Suppose an animal or a plant cell is placed in a solution of sugar or salt in water. Apr 28, 2017 · for example, in the diagram below, the solution around the cell is hypertonic, meaning that it has a higher concentration of solute, so a lower water potential, than the inside of the cell. A cell without a rigid wall will lose water and shrivel if placed in a hypertonic environment. The osmolality of fixatives has a major effect on tissue morphology.

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To maintain their normal cytosolic osmolarity and hence cell volume, animal cells must export na + and other ions that leak or are transported from the extracellular space into the cytosol. If the medium is hypotonic relative to the cell cytoplasm, the cell will gain water through osmosis. The osmolality of fixatives has a major effect on tissue morphology. If the medium is isotonic, there will be no net movement of water across the cell membrane. Hypertonic solutions give rise to cell shrinkage.

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The osmolality of fixatives has a major effect on tissue morphology. Isotonic fixatives produce swollen cells and poor fixation, as do hypotonic fixatives. Apr 28, 2017 · for example, in the diagram below, the solution around the cell is hypertonic, meaning that it has a higher concentration of solute, so a lower water potential, than the inside of the cell. As seen in figure 22.2, a cell placed in water tends to swell due to gain of water from the hypotonic or "low salt" environment. A cell without a rigid wall will lose water and shrivel if placed in a hypertonic environment.

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Animal cells swell or shrink when placed in hypotonic or hypertonic solutions, respectively. As seen in figure 22.2, a cell placed in water tends to swell due to gain of water from the hypotonic or "low salt" environment. To maintain their normal cytosolic osmolarity and hence cell volume, animal cells must export na + and other ions that leak or are transported from the extracellular space into the cytosol. If the medium is hypotonic relative to the cell cytoplasm, the cell will gain water through osmosis. Isotonic fixatives produce swollen cells and poor fixation, as do hypotonic fixatives.

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Apr 28, 2017 · for example, in the diagram below, the solution around the cell is hypertonic, meaning that it has a higher concentration of solute, so a lower water potential, than the inside of the cell. 4.1.4 osmolality of fixative solution. A cell without a rigid wall will lose water and shrivel if placed in a hypertonic environment. If the medium is isotonic, there will be no net movement of water across the cell membrane. To maintain their normal cytosolic osmolarity and hence cell volume, animal cells must export na + and other ions that leak or are transported from the extracellular space into the cytosol.

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4.1.4 osmolality of fixative solution. Isotonic fixatives produce swollen cells and poor fixation, as do hypotonic fixatives. If the medium is isotonic, there will be no net movement of water across the cell membrane. As seen in figure 22.2, a cell placed in water tends to swell due to gain of water from the hypotonic or "low salt" environment. Animal cells swell or shrink when placed in hypotonic or hypertonic solutions, respectively.

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Animal cells swell or shrink when placed in hypotonic or hypertonic solutions, respectively. Suppose an animal or a plant cell is placed in a solution of sugar or salt in water. If the medium is isotonic, there will be no net movement of water across the cell membrane. To maintain their normal cytosolic osmolarity and hence cell volume, animal cells must export na + and other ions that leak or are transported from the extracellular space into the cytosol. A cell without a rigid wall will lose water and shrivel if placed in a hypertonic environment.

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Jan 06, 2011 · unlike plants, animal cells do not have rigid walls surrounding their cellular membranes.

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If the medium is isotonic, there will be no net movement of water across the cell membrane.

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A cell without a rigid wall will lose water and shrivel if placed in a hypertonic environment.

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The osmolality of fixatives has a major effect on tissue morphology.

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If the medium is hypotonic relative to the cell cytoplasm, the cell will gain water through osmosis.

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Animal cells swell or shrink when placed in hypotonic or hypertonic solutions, respectively.

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Jan 06, 2011 · unlike plants, animal cells do not have rigid walls surrounding their cellular membranes.

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4.1.4 osmolality of fixative solution.

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Suppose an animal or a plant cell is placed in a solution of sugar or salt in water.

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If the medium is hypotonic relative to the cell cytoplasm, the cell will gain water through osmosis.

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Hypertonic solutions give rise to cell shrinkage.

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Isotonic fixatives produce swollen cells and poor fixation, as do hypotonic fixatives.

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When the solute concentration is equal on both sides of the membrane, the solution is said to be isotonic.

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The osmolality of fixatives has a major effect on tissue morphology.

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A cell placed in a solution with higher salt concentration, on the other hand, tends to make the membrane shrivel up due to loss of water into the hypertonic or "high salt" environment.

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Animal cells swell or shrink when placed in hypotonic or hypertonic solutions, respectively.

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If an animal cell is placed in a hypotonic environment, the cell will gain water, swell, and possibly burst.

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As seen in figure 22.2, a cell placed in water tends to swell due to gain of water from the hypotonic or "low salt" environment.

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Jan 06, 2011 · unlike plants, animal cells do not have rigid walls surrounding their cellular membranes.

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If the medium is isotonic, there will be no net movement of water across the cell membrane.

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A cell without a rigid wall will lose water and shrivel if placed in a hypertonic environment.

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If the medium is isotonic, there will be no net movement of water across the cell membrane.

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If an animal cell is placed in a hypotonic environment, the cell will gain water, swell, and possibly burst.

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As seen in figure 22.2, a cell placed in water tends to swell due to gain of water from the hypotonic or "low salt" environment.

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The osmolality of fixatives has a major effect on tissue morphology.

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