Cell Membrane Transport: Osmosis

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Presentation transcript:

Cell Membrane Transport: Osmosis November 9, 2011

8.1 Section Objectives – page 195 Predict the effect of a hypotonic, hypertonic, or isotonic solution on a cell. 8.1 Section Objectives – page 195

Section 8.1 Summary – pages 195 - 200 Osmosis: Diffusion of Water Diffusion is the movement of particles from an area of higher concentration to an area of lower concentration. In a cell, water always moves to reach an equal concentration on both sides of the membrane. Section 8.1 Summary – pages 195 - 200

Section 8.1 Summary – pages 195 - 200 Osmosis: Diffusion of Water The diffusion of water across a selectively permeable membrane is called osmosis. Regulating the water flow through the plasma membrane is an important factor in maintaining homeostasis within a cell. Section 8.1 Summary – pages 195 - 200

Section 8.1 Summary – pages 195 - 200 What controls osmosis? Unequal distribution of particles, called a concentration gradient, is one factor that controls osmosis. Before Osmosis After Osmosis Selectively permeable membrane Water molecule Sugar molecule Section 8.1 Summary – pages 195 - 200

Section 8.1 Summary – pages 195 - 200 Cells in an isotonic solution Most cells whether in multicellular or unicellular organisms, are subject to osmosis because they are surrounded by water solutions. H2O H2O Water Molecule Dissolved Molecule Section 8.1 Summary – pages 195 - 200

Section 8.1 Summary – pages 195 - 200 Cells in an isotonic solution In an isotonic solution, the concentration of dissolved substances in the solution is the same as the concentration of dissolved substances inside the cell. H2O H2O Water Molecule Dissolved Molecule Section 8.1 Summary – pages 195 - 200

Section 8.1 Summary – pages 195 - 200 Cells in an isotonic solution In an isotonic solution, water molecules move into and out of the cell at the same rate, and cells retain their normal shape. H2O H2O Water Molecule Dissolved Molecule Section 8.1 Summary – pages 195 - 200

Section 8.1 Summary – pages 195 - 200 Cells in an isotonic solution A plant cell has its normal shape and pressure in an isotonic solution. Section 8.1 Summary – pages 195 - 200

Section 8.1 Summary – pages 195 - 200 Cells in a hypotonic solution In a hypotonic solution, water enters a cell by osmosis, causing the cell to swell. H2O H2O Water Molecule Dissolved Molecule Section 8.1 Summary – pages 195 - 200

Section 8.1 Summary – pages 195 - 200 Cells in a hypotonic solution Plant cells swell beyond their normal size as pressure increases. Section 8.1 Summary – pages 195 - 200

Section 8.1 Summary – pages 195 - 200 Cells in a hypertonic solution In a hypertonic solution, water leaves a cell by osmosis, causing the cell to shrink. H2O H2O Water Molecule Dissolved Molecule Section 8.1 Summary – pages 195 - 200

Section 8.1 Summary – pages 195 - 200 Cells in a hypertonic solution Plant cells lose pressure as the plasma membrane shrinks away from the cell wall. Section 8.1 Summary – pages 195 - 200