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Chapter 5: Homeostasis & Transport

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Chapter 5: Homeostasis & Transport DIFFUSION/OSMOSIS: MOVEMENT OF MATERIALS THROUGH THE CELL MEMBRANE Cell membrane: helps maintain homeostasis by controlling what ... – PowerPoint PPT presentation

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Title: Chapter 5: Homeostasis & Transport


1
Chapter 5Homeostasis Transport
2
DIFFUSION/OSMOSIS
  • MOVEMENT OF MATERIALS THROUGH THE CELL MEMBRANE

3
Cell membrane
  • helps maintain homeostasis by controlling what
    enters or leave cells.
  • Homeostasis (maintaining stability)
  • It is selectively permeable, only allowing
    certain molecules to pass through.

4
Passive Transport
  • Some substances can cross the cell membrane
    without any input of energy by the cell.
  • The movement of such substances across the
    membrane is known as passive transport

5
  • To stay alive, a cell must exchange materials
    such as food, water, wastes w/its envt.
  • Small molecules like water can move in and out
    freely but large molecules cannot.

6
Diffusion
  • the movement of molecules from an area of higher
    concentration to an area of lower conc.
  • HIGHER ? lower
  • Diffusion is a type of passive transport because
    it does not require energy
  • The difference in the conc. of molecules across a
    membrane is called a concentration gradient

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Increasing rate of diffusion
  • Concentration
  • (ammonia)
  • Pressure
  • (spray can)
  • Temperature
  • (water boiling molecules move faster)

9
Solutions
  • Solutions mixture of 2 or more substances
    dissolved together.
  • Example Salt water
  • Solute - substance that is dissolved (salt)
  • Solvent - subst. the solute is dissolved in
    (water)
  • Water serves as the main solvent in living things

10
equilibrium
  • Diffusion continues until conc. is the same on
    both sides of a membrane
  • When a conc. gradient no longer exists,
    equilibrium has been reached BUT molecules will
    continue to move equally back forth across a
    membrane.
  • There is always movement back forth across a
    membrane.

11
Types of Solutions
  • Hypertonic
  • Hypotonic
  • Isotonic

12
Hypertonic Solution
  • Solute conc. outside the cell is higher
  • (less H2O outside)
  • H2O diffuses out of the cell until equilibrium is
    reached
  • Cells shrink die if too much H2O is lost
  • Plant cells become flaccid (wilt) called
    plasmolysis

13
Hypotonic Solution
  • Solute conc. inside the cell is higher
  • (less H2O inside)
  • H2O moves into the cell until equilibrium is
    reached

14
  • Animal cells swell burst if they take in too
    much H2O, called Cytolysis
  • Plant cells become stiff or firm due to H2O
    pressing against the cell wall.
  • Turgor pressure in plant cells helps them keep
    their shape

15
Isotonic Solutions
  • Conc. of solutes same inside outside the cell
  • H2O moves into out of cell at an equal rate

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OSMOSIS
  • Osmosis is the diffusion of H2O.
  • Diffusion of H2O from an area of higher conc.
    (less solute) to an area of lower conc. (more
    solute)

18
How do we deal w/osmosis?
  • The cells of land animals are usually in isotonic
    envt (equilibrium)
  • Freshwater organisms live in hypotonic envt so
    H2O constantly moves into their cells
  • Unicellular freshwater organisms use energy to
    pump out excess H2O by contractile vacuoles.
  • Cell walls prevent plant cells from bursting in
    hypotonic envt
  • Some marine organisms can pump out excess salt

19
Facilitated Diffusion
  • Involves carrier proteins embedded in a cells
    membrane to help move molecules across a membrane.

20
Active Transport
  • Movement of molecules across a cell membr. using
    energy.
  • Molecules are transported against their
    concentration gradient from an area of lower to
    higher concentration (opposite of diffusion.)

21
Example
  • Plants use active transport to help roots absorb
    nutrients from the soil (plant nutrients are more
    conc. inside the root than outside)

22
Movement of LARGER molecules
  • ENDOCYTOSIS cell takes in large molecules
  • Cell engulfs molecules too large to pass through
    the membrane naturally.
  • Folds or pockets swallow the molecules
  • PHAGOCYTOSIS cell takes in lg. solids (food)
  • PINOSCYTOSIS liquids (water)
  • EXOCYTOSIS movement of large molecules OUT of
    the cell.

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THE END
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