Slide 1 / 91 1 How does a phospholipid membrane create an isolated internal environment? Slide 2 / 91 2 Draw and label a phospholipid. Slide 3 / 91 3 In what way do the screen on a window and a cell membrane serve a similar function? What characteristic is used to describe this function?
Slide 4 / 91 4 What essential role does a cell membrane play in maintaining homeostasis? Slide 5 / 91 5 If you stir a cube of sugar into a glass of water, which of these materials would be a solute, and which would be a solvent? Slide 6 / 91 6 If you have a solution consisting of 5 grams of NaCl in 200 mL of water, what is the molarity of your solution?
Slide 7 / 91 7 What characteristic of passive transport makes it ‘passive?’ Slide 8 / 91 8 What role does a concentration gradient play in the process of passive transport? Slide 9 / 91 9 Which image below is in a state of equilibrium? Explain your answer.
Slide 10 / 91 10 Dialysis tubing contains 0.5 M glucose solution. It is placed in a beaker of 1.0 M glucose solution. Describe the direction of diffusion. Slide 11 / 91 11 A cell with an O2 concentration of 8 mM and a CO2 concentration of 5 mM is placed in a solution of 10 mM O2 and 1 mM CO2. Describe the direction of diffusion of each gas. Homework Slide 12 / 91 12 Compare a phospholipid membrane to a chain link fence. How are these two structures similar? What function do they both serve?
Slide 13 / 91 13 How do amphiphilic phospholipids prevent their hydrophobic ends from coming into contact with water? Slide 14 / 91 14 Why is it necessary for cellular health that a cell membrane be selectively permeable? Slide 15 / 91 15 Make a correction to the following statement to make it true: A solute has the ability to dissolve a solvent.
Slide 16 / 91 16 If you have a solution consisting of 100 grams of C6H12O6 in 1000 mL of water, what is the molarity of your solution? Slide 17 / 91 17 Suppose you have a solution consisting of 20 grams of carbon dioxide in 750 mL of water. What is the molarity of your solution? Slide 18 / 91 18 What type of cellular transport would you use to describe a ball rolling down a hill? Explain your answer.
Slide 19 / 91 19 Suppose you spray air freshener into the corner of a room. Explain how the air freshener will move throughout the room. Be sure to use the term concentration gradient in your response. At what point will the air freshener molecules stop moving through the room? Slide 20 / 91 20 What impact does the state of equilibrium have on the rate of diffusion? Slide 21 / 91 21 Suppose you have a cell that is freely permeable to H2O. There are more H2O molecules outside of the cell than inside of the cell. In what direction will the net movement of H2O molecules occur? Why?
Slide 22 / 91 22 A cell with an O2 concentration of 2 mM and a CO2 concentration of 10 mM is placed in a solution of 9 mM O2. Describe the direction of diffusion of each gas. Osmosis Classwork Slide 23 / 91 23 Since osmosis is passive transport, in which direction does water move related to its concentration gradient? What direction does it move in relation to the solution concentration gradient? Slide 24 / 91 24 If a cell is placed in a hypertonic solution, in which direction will water flow in relation to the cell?
Slide 25 / 91 25 Sometimes, doctors will recommend that patients experiencing a sore throat should gargle saltwater to relieve their symptoms. Explain, in terms of solute concentration, how gargling saltwater could help reduce swelling in the throat. Slide 26 / 91 26 Suppose a cell is placed in an unknown solution. After examining the cell under a microscope, you see that the cell membrane has expanded, like a tight water balloon. What kind of solution, hypertonic, hypotonic or isotonic, is the unknown substance? Why did you come to this conclusion? Slide 27 / 91 27 If there is equal concentration of free water molecules inside of a cell compared to its surrounding solution, what type of environment is the surrounding solution?
Slide 28 / 91 28 Suppose you have a houseplant that has begun to wilt. Would it be more beneficial to water this plant with a solution that was hypertonic or hypotonic when compared to the plant cells? Explain your answer. Slide 29 / 91 29 A cell with a sucrose concentration of 0.65 M is placed in a 1.2 sucrose solution. Describe the net flow of water. Homework Slide 30 / 91 30 Does osmosis require the input of energy? Why or why not?
Slide 31 / 91 31 What will happen to a cell that is placed in a hypertonic solution? Slide 32 / 91 32 One way to preserve perishable food, such as meat, is to pack the food in a heavy concentration of salt. Knowing that bacteria survive well in a moist environment, explain why this method of food preservation can be effective. Slide 33 / 91 33 If a cell lyses after being submerged in a solution, would you suggest this solution is hypertonic, hypotonic or isotonic? Why?
Slide 34 / 91 34 If a cell membrane were impermeable to water molecules, how would this change the process of osmosis in our cells? Slide 35 / 91 35 What is the relationship between osmosis and diffusion? Slide 36 / 91 36 A cell with an O2 concentration of 0.4 M and a glucose concentration of 0.1 M is placed in a 0.5 M glucose solution. Describe the net flow of both solutes and water. Plasma Membrane, Transport Through Proteins Classwork
Slide 37 / 91 37 Explain why a cell that requires only passive transport of small molecules may not require the presence of membrane proteins. Slide 38 / 91 38 What similarities exist between peripheral vision and peripheral proteins? Why is the same adjective used to describe both of these things? Slide 39 / 91 39 Why might a polar molecule have a difficult time moving across a phospholipid bilayer, even if it were a small molecule?
Slide 40 / 91 40 Explain why the term fluid mosaic is used to describe the structure of a phospholipid bilayer. Slide 41 / 91 41 Do you think an integral protein or a peripheral protein is more useful for the transport of molecules across a cell membrane? Justify your answer. Slide 42 / 91 42 Identify one similarity that exists between the processes of active transport and facilitated diffusion.
Slide 43 / 91 43 Suppose you need to determine whether glucose is being transported using active transport or facilitated diffusion. The only clue you have is that ATP molecules are required for the movement to occur. Which type of transport do you suggest is being used? Why? Slide 44 / 91 44 Cl- ions often move across cell membranes through a membrane protein that does not change shape to accommodate their transport. Is this protein more likely a channel protein or carrier protein? Justify your response. Slide 45 / 91 45 What type of cell transport is required to move a substance from an area of low concentration to an area of high concentration?
Slide 46 / 91 46 Describe one function that peripheral proteins may provide for the cell. Slide 47 / 91 47 In order for nerve cells to conduct electrical signals appropriately, certain ions need to be transported against their concentration gradient. What type of cell transport is necessary for this to occur? Is ATP required for this process to occur? Homework Slide 48 / 91 48 Why are membrane proteins necessary for the movement of some larger molecules across cell membranes?
Slide 49 / 91 49 What is the difference between a peripheral membrane protein and an integral membrane protein? Slide 50 / 91 50 Are the phospholipids and proteins that construct a cell membrane anchored in a stationary position? What is the term used to describe the arrangement of a phospholipid bilayer? Slide 51 / 91 51 Why are integral proteins sometimes also called transmembrane proteins?
Slide 52 / 91 52 Even though ions are very small, they often require the assistance of a membrane protein to enter or leave a cell. What characteristic of ions makes this necessary? Slide 53 / 91 53 Even though they both require the use of membrane proteins, if a molecule needs to move against a concentration gradient, would active transport or facilitated diffusion be a more likely method to accomplish this task? Explain your answer. Slide 54 / 91 54 What do facilitated diffusion and osmosis have in common?
Slide 55 / 91 55 Knowing that molecules will naturally move from an area of high concentration to an area of low concentration, why do you think active transport may require the input of energy? Slide 56 / 91 56 Suppose a cell needs to move a small, uncharged molecule against its concentration gradient. What type of transport would be required to accomplish this task? Slide 57 / 91 57 In what way is active transport similar to pushing a ball up a hill? Enzymes, Catalytic Cycle Classwork
Slide 58 / 91 58 Explain the impact that an enzyme can have on a chemical reaction. Slide 59 / 91 59 What is the relationship between enzymes and catalysts? Slide 60 / 91 60 Which class of biological macromolecules would contain enzymes?
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