Cell Processes Moving Across the Membrane

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Presentation transcript:

Cell Processes Moving Across the Membrane Animated PowerPoint & Handouts for: Moving Materials Across the Membrane Foldable Osmosis Lab © Getting Nerdy, LLC

Moving through the Membrane Objective: To understand how cells transport materials Bell work: Why does the size of a cell play such an important role in the movement of materials throughout the cell? The larger the cell, the more time it takes to deliver the necessary materials to the various organelles. Smaller cells move materials much more quickly and efficiently. © Getting Nerdy, LLC

MOVING THROUGH THE MEMBRANE Let’s create a foldable to keep track of our notes on how cells transport materials. Obtain a piece of copy paper and let’s get started… © Getting Nerdy, LLC

What’s Behind Door Number… Fold your paper in half. Take each side and fold it into the middle. Now take the top and bottom of your paper and fold them inwards. Open it up. You should have 12 equal-sized squares. Fold the “doors” into the center, so that your paper looks like a window with closed “shutters”. Cut the “shutters” on your fold lines so that you have six total doors. Label each door with a SMALL number in the outer corner following the guide below. 1 2 3 4 5 6 © Getting Nerdy, LLC

Here’s what it will look like when you are all done! On the front of each door, you will write the term and define each cell process. Then, on the back of the door, you will write the uses and examples. On the inside you will draw what each thing looks like. Here’s what it will look like when you are all done!

HIGH to LOW Passive Transport The following types of transport are considered Passive Transport. this means molecules move across the membrane without the use of energy. Molecules move from concentration This means from a high amount of molecules on one side compared to a small amount of molecules on the other. HIGH to LOW

Vocabulary Concentration Gradient- a gradual difference in concentration of particles between two regions.

HIGH concentration of molecules LOW concentration of molecules DOOR # 1: Outside DIFFUSION What is it? Movement of molecules across the cell membrane WITHOUT the use of energy HIGH concentration of molecules LOW concentration of molecules

HIGH concentration of molecules LOW concentration of molecules DOOR # 1: Inside DIFFUSION Used for: Movement of molecules from high concentration to low concentration WITH the concentration gradient Continuesuntil concentrations reach equilibrium Example:CarbonDioxide, Water, Oxygen HIGH concentration of molecules LOW concentration of molecules

OSMOSIS What is it? DOOR # 2: Outside DIFFUSION of WATER molecules across the cell membrane

OSMOSIS DOOR # 2: Inside Used for: Moves from HIGH concentration to LOW concentration WITH the gradient Continues until concentrations reach equilibrium Example: water

FACILITATED DIFFUSION DOOR # 3: Outside FACILITATED DIFFUSION What is it? Protein within the cell membrane that “picks up” molecules from the outside or inside of the cell and carries them across the cell membrane, with concentration gradient

FACILITATED DIFFUSION DOOR # 3: Inside FACILITATED DIFFUSION Used for: Molecules that are too large to move through the cell membrane Requires PASSIVE TRANSPORT Example: glucose

LOW to HIGH Active Transport The following types of transport are considered Active Transport. this means molecules move across the membrane WITH energy. Molecules move from concentration This means from a low amount of molecules on one side compared to a large, or high amount of molecules on the other. LOW to HIGH

LOW concentration of molecules HIGH concentration of molecules DOOR # 4: Outisde PROTEIN PUMP What is it? Movement of molecules across the cell membrane with the help of a protein, using ENERGY LOW concentration of molecules HIGH concentration of molecules BIG Particles

LOW concentration of molecules HIGH concentration of molecules DOOR # 4: Inside PROTEIN PUMP Used for: Movement of chemicals from low concentration to high concentration against the concentration gradient Example: Sodium and Potassium Molecules that are too large to move through the cell membrane easily Example: Starch LOW concentration of molecules HIGH concentration of molecules BIG Particles

ENDOCYTOSIS What is it? DOOR # 5:Outside Part of the cell membrane surrounds materials in a vesicle and carries them INTO the cell to be released inside

ENDOCYTOSIS DOOR # 5: Inside Used for: Molecules that are too large to move through the cell membrane Engulfing food Requires Energy

DOOR # 6: Outside EXOCYTOSIS What is it? Part of the cell membrane surrounds materials in a vesicle and carries them OUT of the cell to be released outside

EXOCYTOSIS DOOR # 6: Used for: Protein Export Molecules that are too large to move through the cell membrane Removing waste and worn out organelles Requires Energy

Moving through the Membrane Ahhhh…You’ve been soaking in the tub to try and relax after a hard day of standardized testing at school. Getting out of the tub, you notice that your fingertips and toes are like little raisins. Have you just aged 60 years?!?! No way, that’s just osmosis in action! Your fingers have absorbed the bath water, causing the tips to form wrinkly folds.

Moving through the Membrane Objective: To simulate osmosis and observe how raisins and grapes are affected when submersed in freshwater, salt water, and sugar water. Hypothesis: What do you think will happen to the grapes and raisins in the freshwater, salt water and sugar water? Write a hypothesis for each one. © Getting Nerdy, LLC

Moving through the Membrane What you do: Label three cups “water,” “sugar,” & “salt” Add 200mL of water to each cup To the cup marked “sugar” add 1T of sugar and stir until dissolved To the cup marked “salt” add 1T of salt and stir until dissolved Measure the initial mass in grams for the raisins and grapes and place the information in the data table Place one raisin and one grape into each of the three different cups and leave overnight

Moving through the Membrane What you do: (continued) One cup at a time, remove the items and carefully blot them with a paper towel Place on a balance to find the final mass of the raising and grapes and place your information in the data table Determine the total change in mass by subtracting the initial mass from the final mass. Note, if the total change is positive, it shows that the fruit gained mass. If the total change is negative, the fruit lost mass.

Moving through the Membrane The Results: What Happened? Determine the mass for each item and record your data in the chart on your paper Initial Mass = Mass before being put into the water mixture Final Mass = Mass after sitting in the water mixture for 24 hours and being patted dry to remove excess moisture Total Change = Initial Mass – Final Mass (note: if the number is positive, the produce gained mass; if the number is negative, the produce lost mass)

Moving through the Membrane The mass of the grapes & raisins The Results: What Happened? What is the independent variable in this experiment? The type of solution the grapes and raisins are placed in: salt water, freshwater and sugar water What is the dependent variable in this experiment? The mass of the grapes & raisins

Moving through the Membrane Conclusions: Complete the graphs for each solution on your paper. Then, answer the following conclusion questions. What liquids caused the fruits to swell (gain mass)? Why do you think they gained mass? i.e. where did the water move? What liquids caused the fruits to shrink (lose mass)? Why do you think they lost mass? i.e. where did the water move? Was there any liquid in which you saw no change in mass? Why do you think there was no change?

Soooo Thirsty… You’re stranded in the desert and see an oasis. It’s your only source of water to drink. Upon further inspection, you discover it has a high concentration of salt. Do you drink it? Why or why not? Describe the process of osmosis in your answer. © Getting Nerdy, LLC

NO! Don’t DRINK IT!!! It will just dehydrate you more… When you are dehydrated, your cells need water more than salt. After drinking the salt water, your blood has a high salt concentration. Because there is more water in the cells than in your blood, water will move out of the cell and into the bloodstream in an attempt to balance the concentration of salt on both sides of the cell membrane. MORE WATER INSIDE than OUTSIDE = water moves OUT!

You’re so Sweet! Mmmmm . . . you love fruit in a can! When you open up that can of peaches, you notice that they look and feel just like they were fresh picked! Why do you think they stay that way? Describe the process of osmosis in your answer. © Getting Nerdy, LLC

SAME WATER OUTSIDE and INSIDE = water stays the SAME! Sweet is as sweet does… What’s on the inside of a peach? Sugar! And what do they package the peaches in? Sugar water! The sugar and water are balanced on both the inside and the outside of the peach making the peach maintain it’s shape and texture! SAME WATER OUTSIDE and INSIDE = water stays the SAME!

High Concentration to Low Concentration REQUIRES NO ENERGY Osmosis is a type of passive transport meaning that it does not require the cell to use energy to move water across the cell membrane. Draw an analogy comparing riding a bicycle and a hill to passive transport. High Concentration to Low Concentration REQUIRES NO ENERGY © Getting Nerdy, LLC

So, if you’re riding your bike downhill, you can just kick your feet off the pedals and fly down that hill. No need to do anything, so it doesn’t require any energy. It’s a lot like moving from high concentration (high up on the hill) to low concentration (at the bottom of the hill). That’s PASSIVE TRANSPORT!

Low Concentration to High Concentration REQUIRES lots of ENERGY Conversely, if you are moving from an area of low concentration (at the bottom of the hill) to high concentration (the top of the hill), it requires lots of energy. Think about pedaling uphill… you need to pedal HARD! That’s ACTIVE TRANSPORT! Low Concentration to High Concentration REQUIRES lots of ENERGY © Getting Nerdy, LLC