Diffusion, Osmosis and the SF Bay Solutions 1.Define solution A homogeneous mixture in which one...
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Transcript of Diffusion, Osmosis and the SF Bay Solutions 1.Define solution A homogeneous mixture in which one...
Diffusion, Osmosis and the SF Bay
Solutions
1. Define solution
• A homogeneous mixture in which one substance is dissolved in another.
• Ex. Kool-aid, saltwater
2. Define solute
• The substance in a solution that is dissolved.
• Ex. Sugar, salt
3. Define solvent
• The substance in a solution that does the dissolving.
• Ex. water
Diffusion
2. Define diffusion
• The process by which molecules of a substance move across a concentration gradient, from areas of higher concentration of that substance to areas of lower concentration
3. Define concentration gradient
• The distinguishing line between higher and lower concentrations
4. Define selectively permeable membrane
• A biological membrane that allows some substances to pass through, but not others
Selectively Permeable Membrane
Diffusion
5. Factors that determine whether diffusion occurs across a membrane include:
• Unequal concentration of substances on either side of a membrane
• Membrane permeability
If molecules can penetrate a membrane, diffusion will continue until equilibrium
is reached!
Osmosis
6. Define osmosis
• The diffusion of water through a selectively permeable membrane from an area of greater water concentration to an area of lesser water concentration.
Osmosis
9. Problems
• Cell cytoplasm is filled with solute particles (sugars, salts, proteins etc.)
• Water concentration is lower inside the cell than in fresh water
• Cell membrane is permeable to water, but not to solutes
• If water moves in, the cell will expand and burst!
10.Solutions
• Some cells do not come into contact with fresh water
• Plants cells and bacteria have cell walls to prevent cells from expanding
• Some unicellular organisms pump excess water out of cell
Passive Transport
11.Define passive transport
• The transport of molecules, down a concentration gradient, from a region of higher concentration to a region of lower concentration
• Energy is NOT required for this process to occur
• Ex. diffusion, osmosis and facilitated diffusion
Facilitated Diffusion
12.Define facilitated diffusion
• The transport of molecules across a membrane in the direction of lowest concentration by a carrier protein
Explanation:
• Some molecules are too big or have to wrong charge to be permitted to freely pass through a cell membrane
The molecules move down a concentration gradient, so energy is NOT required!
Active Transport
13.Define active transport
• The transport of molecules against a concentration gradient, from a region of low concentration to a region of high concentration
Examples:
• Molecules are carried through membrane-associated pumps
• EndocytosisThe molecules move
against a concentration
gradient, so energy IS required!
Applying the Concepts-Hypotonic Solution
1. Hypotonic solution-a solution with a lesser concentration of solute compared to the concentration of solute inside the cell
• Example: a single celled salt water organism is
placed in brackish waterb. Direction of water flow?
c. Direction of solute flow?
d. What will happen to the cell?
brackish water
b. Water flows into the cell.
c. The solute does not move because of the selectively permeable membrane.
d. The cell will expand and could burst!
Applying the Concepts-Hypertonic Solution
2. Hypertonic solution-a solution with a greater concentration of solute compared to the concentration of solute inside the cell
• Example: a single celled fresh water organism is placed in salt water
salt water
b. Direction of water flow?
c. Direction of solute flow?
d. What will happen to the cell?
b. Water flows out of the cell.
c. The solute does not move because of the selectively permeable membrane.
d. The cell will shrink!
Applying the Concepts-Isotonic Solution
3. Isotonic solution-a solution with an equal concentration of solute compared to the concentration of solute inside the cell
• Example: a single human red blood cell is placed
in a 0.9% saline (salt) solution
0.9% saline
Osmosis Animation
b. Direction of water flow?
c. Direction of solute flow?
d. What will happen to the cell?
b. There is no net movement of water in a particular direction.
c. The solute does not move because of the selectively permeable membrane.
d. The cell size stays the same!
Diffusion Demonstration
Set-up #1
• The cornstarch represents the living cell. The iodine solution represents the environment.
• Example: a single celled salt water organism placed in brackish water.
•There is a lower concentration of iodine inside the cell, so the iodine moves in.
•There is no net movement of cornstarch because of the selectively permeable membrane.
•This causes the liquid inside the plastic bag to change color and the plastic bag to expand.
•This is an example of a_____________ environment.
Iodine solution
Cornstarch solution
hypotonic
Diffusion Demonstration
Set-up #2
• The cornstarch represents the environment. Iodine represents the living cell.
• Example: a single celled fresh water organism placed in salt water.
•There is greater concentration of iodine inside the cell, so iodine moves out.
•There is no net movement of cornstarch because of the selectively permeable membrane.
•This causes the liquid outside the plastic bag to change color and the plastic bag to shrink.
•This is an example of a _______________ environment.
hypertonic
Cornstarch solution
Iodine solution