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2.2 Properties 3.1 Cell Theory of Water Water • Most important compound in living organisms Polar • Molecule with an unequal distribution of charge Hydrogen Bond • • • Attraction of opposite charges Forms a weak bond Forms between water molecules 2.2 Properties 3.1 Cell Theory of Water Requires more heat to increase its T than do most other common liquids Loses a lot of heat when it cools Due to the hydrogen bonds Insulator that helps maintain a steady environment when conditions fluctuate (homeostasis) 2.2 Properties 3.1 Cell Theory of Water Adhesion – attraction between unlike substances Cohesion – attraction between like substances Capillarity – Due to adhesion & cohesion water is pulled up through tiny tubes Surface Tension – caused from cohesion How Polarity Makes Water act Strange 3.1 Cell Theory http://www.youtube.com/watch?v=ASLUY2U1M8&list=PLJicmE8fK0Ehrg3meytY7DT8LJiwuU3Th&index= 65 3.4 Diffusion and Osmosis 3.1 Cell Theory • Diffusion - Molecules move down a concentration gradient. • From High to Low concentration 3.1 Cell Theory 3.4 Diffusion and Osmosis Molecules move in RANDOM STRAIGHT line until they run into another particle and are deflected Movement continues until they reach equilibrium Equal concentration throughout the space Movement never STOPS – maintains equilibrium Concentration, Temperature, & Pressure affect rates of diffusion 3.1 Cell Theory 3.4 Diffusion and Osmosis Passive transport does not require energy input from a cell Molecules move down the concentration gradient • Diffusion •3 types of diffusion 1. Facilitated Diffusion 2. Diffusion Through Ion Channels 3. Osmosis 3.1 CellMembrane Theory 3.3 Cell The cell membrane is a barrier that separates a cell from the external environment. 3.3Cell Cell Membrane 3.1 Theory Cell membranes are composed of two phospholipid layers. 3.1 CellMembrane Theory 3.3 Cell Cell membranes are composed of two phospholipid layers. • The cell membrane has two major functions. – forms a boundary between inside and outside of the cell – controls passage of materials cell membrane inside cell outside cell 3.1 CellMembrane Theory 3.3 Cell Cell membranes are composed of two phospholipid layers. • The cell membrane is selectively permeable Some molecules can cross the membrane while others cannot. 3.1 3.3Cell Cell Theory Membrane Cell membranes are composed of two phospholipid layers. • The cell membrane is selectively permeable. Some molecules can cross the membrane while others cannot. 3.1 Cell Theory 3.4 Diffusion and Osmosis Materials move across membranes because of concentration differences. 3.4 Diffusion and Osmosis 3.1 Cell Theory Some molecules can only diffuse through transport proteins. • Facilitated diffusion is diffusion through channel proteins. • High to low concentration Channel Protein 3.4 Diffusion and Osmosis 3.1 Cell Theory Diffusion through Ion Channels Na+ sodium K+ potassium Ca2+ calcium Cl- chloride (not soluble in lipids) Ion channels allow ions to diffuse into and out of cell Ion channels are either open all the time or gates which open in response to stimuli 1. stretching of cell membrane 2. electrical signals 3. chemical signals 2.2 Properties 3.1 Cell Theory of Water Solution = A mixture in which a solute is dissolved evenly in a solvent Solute – What gets dissolved Solvent – What does the dissolving Water is the universal solvent Because its polar • Dissolves both positive and negative solutes 3.4 Diffusion and Osmosis 3.1 Cell Theory Osmosis is the diffusion of water molecules across a semipermeable membrane 3.4 Diffusion and Osmosis 3.1 Cell Theory Hypotonic Concentration of dissolved substances (solute) is lower in the solution outside the cell than inside the cell What Happens: • Water moves through the membrane into the cell • Cell swells Cytolysis – cell bursts (animal cells) Turgor Pressure – plant cells 3.4 Diffusion and Osmosis 3.1 Cell Theory Hypertonic Concentration of dissolved substances outside the cell is higher than inside the cell What Happens: • Water flows out of cell • Plant cells – loss of turgor pressure – Plasmolysis – wilting 3.4 Diffusion and Osmosis 3.1 Cell Theory Isotonic Concentration of solute in solution is the same outside as inside the cell – equilibrium What happens: • Water diffuses at the same rate in and out of the cell • Maintaining equilibrium - homeostasis 3.5 Active Transport 3.1 Cell Theory Active transport requires energy input from a cell and enables a cell to move a substance against (up) the concentration gradient. • Powered by chemical energy (ATP). • Active transport occurs through transport protein - pumps (carrier proteins) • EX: Na-K pump • Cells use active transport to maintain homeostasis. 3.5 Active Transport 3.1 Cell Theory A cell can import and export large materials or large amounts of material in vesicles • Cells use energy to transport material in vesicles. • Endocytosis - process of taking material into the cell. • Phagocytosis – endocytosis of solid particles. • Pinocytosis – endocytosis of liquids 3.5 Active Transport 3.1 Cell Theory A cell can import and export large materials or large amounts of material in vesicles • Cells use energy to transport material in vesicles. • Exocytosis is the process of moving material out of the cell.
