Activating Prior Knowledge Egg Osmosis Soak a chicken egg in vinegar to Remove the cell, and Denature the outer protein Then you have a big cell to experiment with! View and Interpret Egg Osmosis Video What is an egg? A chicken egg to be more precise…
After this lesson, you should be able to explain the impact of water on life processes (i.e., osmosis, diffusion, SB1d). explain the role of the cell membrane, in maintaining homeostasis (transporting materials in/out of cell). Use vocabulary: hypertonic, hypotonic, isotonic Passive Transport: diffusion, osmosis, facilitated diffusion Active Transport: sodium/potassium pump and endo/exocytosis
Solution Review Solvent – the larger material {liquid} that dissolves the solute Water is considered the “universal” solvent Solute – smaller substance that is dissolved by the solvent. Ex. tea & sugar Solution – Complete mixture of solute and solvent Ex. Sweet tea
Quick Check! I mixed Kool-Aid powder in water. Describe the mixture using the terms: solute, solvent, and solution.
Words to know: Hypertonic Isotonic More solute Solution has Hyper means higher {more concentrated} Isotonic Solution has achieved equilibrium Hypotonic Less solute Hypo means lower less concentrated Equilibrium achieving balance or equal
Diffusion Demonstration Equal volume of cold and warm water, each in separate clear cups What will happen if we drop equal amounts of food coloring in each? Let’s try it and observe. youtube Explain what you see. Lead discussion to develop diffusion definition including Movement of a substance Random molecular motion Kinetic energy Concentration gradient equilibrium
Diffusion Movement of substances from high concentration to low concentration Movement “down a concentration gradient” Due in part to random, rapid motion of molecules. Net Movement Equilibrium State Simple Diffusion. Roles in the Body Factors that Affect Rate: permeability of membrane Size of gradient temperature
Passive Transport Movement of materials in & out of the cell without {NO} Energy Hypertonic High Low Hypertonic hypotonic Hypotonic
Diffusion Passive O2, CO2, H2O across cell membrane Smells spreading Movement of any molecules from a high concentration to a low concentration.
Osmosis Diffusion of water across a semi- permeable membrane
Osmosis Diffusion of water through a selectively permeable membrane. Movement of water from “less salty” to “more salty” side of membrane from low solute concentration to high solute concentration. from high water concentration to low water concentration. Hypertonic Hypotonic Isotonic In everyday life: Preservation of food Eating of salty or sugary foods Salt on a slug contractile vacuoles turgur pressure in plants
Diffusion and Osmosis Experiment Initial Contents Initial Solution Color Final Solution Color Initial Presence of Glucose Final Presence of Glucose Dialysis Tubing or Plastic Bag Beaker or Clear Cup
OSMOSIS DEMONSTRATION (DIALYSIS BAGS)
Interpret this experiment!
OSMOSIS IN PLANT CELLS What’s happening to the water in the cell? HYPOTONIC SOLUTION= NORMAL TURGOR PRESSURE HYPERTONIC SOLUTION= PLASMOLYSIS
OSMOSIS IN PLANT CELLS (Elodea) Plasmolyzed cells
Solution Concentrations Isotonic Solution When a cell is in a solution that has the same concentration of water and solutes Hypotonic Solution A cell is in a solution that has a lower concentration of solute Hypertonic Solution A cell is in a solution that has a higher concentration of solute outside of the cell
Quick Check Knowing what we know about osmosis, what would happen to the water in a cell in: 1. an isotonic solution? 2. a hypotonic solution? 3. a hypertonic solution?
Osmosis Passive Hyper to Hypo Diffusion of water molecules across a membrane. Net movement of water toward high solute (hypertonic) side of membrane
Osmosis and Animal Cells NO CHANGE CRENATION WILL LYSE
Facilitated Diffusion Passive Diffusion that uses channel proteins Hyper to Hypo Large molecules like glucose
Facilitated Diffusion Movement from high concentration to low concentration through carrier proteins. Used to move ionic or large substances into or out of cells Passive process Carrier proteins are specific (will only move one substance) Important for moving sugars and amino acids into cells
Active Transport Low to High Movement of materials in & out cell WITH energy High Low
Quick Check! What is the main difference between active and passive transport?
Ion or Solute pump Active Protein channel hypotonic to hypertonic Ex. Na+ K + pump To “pump” means it uses energy (ATP)
Active Transport Sodium-Potassium Pump Pumps sodium out of cells and potassium into cells. Important for the functioning of nerves and muscles. Pump is a membrane protein and an enzyme--ATPase. Movement of substances against a concentration gradient. From low concentration to high concentration. requires energy pumping a substance ATP must be hydrolyzed to fuel this process
Sodium-Potassium Pump (this allows for nerve function!) 3 Na+ pumped in for every 2 K+ pumped out; creates a membrane potential
Exocytosis- moving things out. Moving the “Big Stuff” Exocytosis- moving things out. Molecules are moved out of the cell by vesicles that fuse with the plasma membrane. This is how many hormones are secreted and how nerve cells communicate with one another.
Pinocytosis Cell forms an invagination Materials dissolve in water to be brought into cell Called “Cell Drinking”
Endocytosis – Phagocytosis Used to engulf large particles such as food, bacteria, etc. into vesicles Called “Cell Eating”
Three Forms of Transport Across the Membrane
Cellular Transport On-Line Tutorial (11 slides with animated molecules moving across cell membrane; includes quiz questions along the way) ANOTHER ONLINE TUTORIAL
Passive Transport Osmosis O2, CO2, H2O glucose Na+ & K+ ions Closing Challenge – Create a “Cell Transport Concept Map” with these words: Active Transport ATP Cell Transport Concentration Gradient Diffusion Endocytosis Exocytosis Facilitated Diffusion Passive Transport Osmosis O2, CO2, H2O glucose Na+ & K+ ions