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Part 3: Homeostasis and Cell Transport (Chapter 5)

Part 3: Homeostasis and Cell Transport (Chapter 5)

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Which types of molecules can move through the membrane without energy? Small, nonpolar (hydrophobic) molecules Examples: O 2, CO 2, H 2 O, lipids

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Page 1: Part 3: Homeostasis and Cell Transport (Chapter 5)

Part 3: Homeostasis and Cell Transport (Chapter 5)

Page 2: Part 3: Homeostasis and Cell Transport (Chapter 5)

Passive Transport

• NO ENERGY REQUIRED to move substances across membrane from a higher concentration to a lower concentration

• Types:1. Diffusion2. Osmosis3. Facilitated Diffusion4. Diffusion through Ion Channels

•Involves the movement of molecules across the cell membrane without an input of energy by the cell.

Page 3: Part 3: Homeostasis and Cell Transport (Chapter 5)

Which types of molecules can move through the membrane

without energy?• Small, nonpolar (hydrophobic) molecules

• Examples: O2, CO2, H2O, lipids

Page 4: Part 3: Homeostasis and Cell Transport (Chapter 5)

Diffusion

Page 5: Part 3: Homeostasis and Cell Transport (Chapter 5)

Osmosis

Hypotonic Isotonic Hypertonic

Page 6: Part 3: Homeostasis and Cell Transport (Chapter 5)

Facilitated Diffusion

Page 7: Part 3: Homeostasis and Cell Transport (Chapter 5)

Ion Channels

Page 8: Part 3: Homeostasis and Cell Transport (Chapter 5)

• Active transport • moves molecules across the cell

membrane from an area of lower concentration to an area of higher concentration (against concentration gradient)

• requires cells to use ENERGY (ATP)• Some types of active transport are

performed by carrier proteins called cell membrane pumps.

Active TransportCell Membrane Pumps and Vesicles

Page 9: Part 3: Homeostasis and Cell Transport (Chapter 5)

Example: Sodium-Potassium Pump

Page 10: Part 3: Homeostasis and Cell Transport (Chapter 5)

Sodium-Potassium Pump

Page 11: Part 3: Homeostasis and Cell Transport (Chapter 5)

Endocytosis and

Exocytosis


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