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Cells & Their Environment
Diffusion & Osmosis
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Homeostasis The ability of an organism to maintain a constant internal balance, regardless of its external environment. Ex. Maintaining a constant body temperature.
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Homeostasis? Write down another example of homeostasis within our bodies or within the cells of our bodies.
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Membranes Regulate the Traffic of Molecules
Materials such as water, nutrients, dissolved gases & wastes must constantly move in two-way traffic across a cell’s plasma membrane. The Plasma membrane functions like gatekeepers, letting some molecules through but not others.
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The Plasma Membrane The Plasma Membrane can be thought of as the edge of life-it is the boundary that separates the interior of a living cell from its surroundings. It regulates the traffic of chemicals into and out of the cell. (Semipermeable)
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Homeostasis To maintain homeostasis, a cell uses:
Passive Transport (no energy output required). Active Transport (energy output is required).
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Passive Transport 1. Diffusion – molecules moving from a region of high concentration to an area of low concentration. Diffusion 2. Osmosis – diffusion of water through a selectively permeable membrane, from high to low concentration. Osmosis
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Diffusion
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Passive Transport 3. Facilitated Diffusion –
diffusion of specific particles through selective pores (channel proteins) in the cell membrane. From High to Low concentration.
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Solute & Solvent Solute – The substance dissolved in a solvent
Solvent – The substance in which the solute is dissolved (usually water) ex. Salt (solute) dissolved in water (solvent)
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A Cell in Water Solutions (See Pg 86-87) Change
Isotonic Solution – the same H2O concentration inside the cell as out. (Cell stays the same …Equilibrium) Or Same solute concentration in the solution as in the cell
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A Cell in Water Solutions (See Pg. 86-87)
Hypertonic Solution– Higher H2O concentration inside the cell – (H2O moves out …cell shrinks). Or Higher solute concentration in the solution than in the cell
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A Cell in Water Solutions (See Pg 86-87)
Hypotonic Solution – Lower H2O concentration inside the cell – (H2O moves in…cell expands). Or Lower solute concentration in the solution than in the cell
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Isotonic Solution Which Direction will the water move?
H2O Which Direction will the water move? Will the Cell expand or shrink? Is this a iso-, hyper- or hypo- solution?
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Hypertonic Solution Which Direction will the water move?
H2O Which Direction will the water move? Will the Cell expand or shrink? Is this a iso-, hyper- or hypo- solution?
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Hypotonic Solution Which Direction will the water move?
H2O Will the Cell expand or shrink? H2O H2O Is this a iso-, hyper- or hypo- solution?
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Hypo, Hyper, or Iso
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Hypo, Hyper, or Iso
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Hypo, Hyper, or Iso
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Animations Diffusion Osmosis Facilitated Diffusion
Hypertonic, Hypotonic, Isotonic Another one Passive Transport Video
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Endocytosis & Exocytosis
Active Transport Movement of molecules from a low concentration to a region of high concentration. This process requires energy. These are: Active Transport Endocytosis Phagocytosis Pinocytosis Exocytosis Video Active Transport Endocytosis & Exocytosis
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1. Active Transport Active Transport - this type of transport requires that the cell use energy, because substances are moving against the concentration gradient. Sodium Potassium Pump - the cell pumps out 3 sodium ions and takes in 2 potassium ions
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2. Endocytosis The cell membrane surrounds and pinches off material as it brings it into the cell. Phagocytosis – bringing large particles into the cell. Pinocytosis – bringing small particles into the cell.
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3. Exocytosis The process by which cells expel large particles.
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Animations Endocytosis & Exocytosis Active Transport Video
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