1. Homeostasis & Transport

2. Section 1: Diffusion & Osmosis

3. Homeostasis  Homeostasis: the biological balance between a cell or an organism and its environment  Cells maintain homeostasis by controlling and regulating what gets into and out of the cell.  Homeostasis: the biological balance between a cell or an organism and its environment  Cells maintain homeostasis by controlling and regulating what gets into and out of the cell.

4. Diffusion  Diffusion: the process by which molecules move from an area of greater concentration to an area of lower concentration

5. Diffusion

6. Brownian Motion  Brownian Motion: molecules are in a constant state of random motion

7. Brownian Motion

8. Concentration Gradient  Concentration Gradient: the difference in concentration of a substance across a space

9. Dynamic Equilibrium  Dynamic Equilibrium: a state that exists when the concentration of a substance is the same throughout a space

10. Dynamic Equilibrium

11. Review of Cell Membrane Structure

12. Diffusion Across Membranes  Not all molecules can diffuse through all membranes.  The ability of a molecule to pass through a membrane depends on the size and type of molecule and the molecular structure of the membrane.  Not all molecules can diffuse through all membranes.  The ability of a molecule to pass through a membrane depends on the size and type of molecule and the molecular structure of the membrane. Small nonpolar molecules can diffuse through the cell membrane

13. Osmosis  Osmosis: the diffusion of water molecules through a selectively permeable membrane from an area of high water concentration to an area of lower water concentration

14. Osmosis

15. Three Types of Solutions 90% H 2 O 10% solute 90% H 2 O 10% solute 90% H 2 O 10% solute 90% H 2 O 10% solute 85% H 2 O 15% solute 95% H 2 O 5% solute Isotonic (no net movement of water) HypotonicHypertonic

16. Three Types of Solutions Plant Cells

17. Three Types of Solutions Animal Cells

18. Three Types of Solutions Cytolysis Plasmolysis

19. Three Types of Solutions

20. Contractile Vacuoles  Contractile Vacuole: an organelle in microorganisms that excretes water  collect excess water → contract → squeeze out water  Contractile Vacuole: an organelle in microorganisms that excretes water  collect excess water → contract → squeeze out water

21. Study the diagram below. It represents a container that is divided by a semipermeable membrane. A different solution in its initial state is shown on each side of the membrane. 1.Describe which molecule(s) will move through the membrane and which molecule(s) will not. 2.Describe the relative rates at which the molecule(s) will move across the membrane. 3.Describe in which direction the molecule(s) will move. 4.Describe how long the molecule(s) will continue to move.

22. Section 2: Other Kinds of Transport

23. Review of Cell Membrane Structure

25. Passive Transport  Passive Transport: the movement of any substance across a cell membrane without the use of cell energy  Diffusion  Osmosis  Facilitated Diffusion  Gated Channel  Passive Transport: the movement of any substance across a cell membrane without the use of cell energy  Diffusion  Osmosis  Facilitated Diffusion  Gated Channel

26. Facilitated Diffusion  Facilitated Diffusion: a process in which substances move down their concentration gradient across the cell membrane with the assistance of carrier proteins  Examples: glucose, fructose, & ions  Facilitated Diffusion: a process in which substances move down their concentration gradient across the cell membrane with the assistance of carrier proteins  Examples: glucose, fructose, & ions

27. Facilitated Diffusion

30. Gated Channel  Gated Channel: a protein-lined gated passage making cell membranes permeable to certain large molecules as needed  Example: neuromuscular function  Gated Channel: a protein-lined gated passage making cell membranes permeable to certain large molecules as needed  Example: neuromuscular function

31. Gated Channel

32. Active Transport  Active Transport: the movement of any substance across a cell membrane with the use of energy from ATP  Sodium-Potassium Pump  Endocytosis  Exocytosis  Active Transport: the movement of any substance across a cell membrane with the use of energy from ATP  Sodium-Potassium Pump  Endocytosis  Exocytosis

33. Sodium-Potassium Pump  Sodium- Potassium Pump: an active transport mechanism that moves ions in order to achieve polarization

36. Proton Pump  Proton Pump: an active transport mechanism that consumes ATP (energy) to force Hydrogen ions against the concentration gradient

37. Proton Pump

39. Endocytosis  Endocytosis: the process by which a cell engulfs and surrounds large substances

40. Endocytosis

41. Exocytosis  Exocytosis: the process by which wastes are packaged in vesicles and leave the cell

42. Exocytosis

43. Passive vs. Active Transport