Biology - Virtual Lab Exercise

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VIRTUAL LAB INSTRUCTIONS

Open the attached PDF file titled “diffusion_virtual_lab_Exercise 9”.

Click on the link in the PDF, located just below the title of the lab. This provides you access to the interactive content for this lab.

ALSO-Download the “Diffusion Virtual Lab Data Sheet_Exercise 9”.

Using the link you clicked on, and reading the information in the PDF, complete the virtual lab exercise. Record your results and observations in the table on the Diffusion Virtual Lab Data Sheet. Also answer the 6 questions written below the table, which are related to the results and observations you obtained. You may use other resources to answer the questions as needed.

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Diffusion Virtual Lab Data Sheet Name: ________________________ Complete the Data Table Molecules Name Red Blood Cell: Net Water Movement In or Out Red Blood Cell Appearance of Cell Elodea Net Water Movement In or Out Elodea Appearance of Cell Hypotonic Solution Isotonic Solution Hypertonic Solution 1. Did water move into or out of the cell while it was surrounded by a hypotonic solution? 2. Did water move into or out of the cell while it was surrounded by a hypertonic solution? Paramecium Net Water Movement In or Out Paramecium Appearance of Cell 3. Did water move into or out of the cell while it was surrounded by an isotonic solution? 4. Compare and contrast what happens to an animal, a plant and a paramecium cell in a hypotonic, hypertonic and isotonic solution. 5. Could elodea or paramecium from a freshwater lake be expected to survive if transplanted into the ocean? 6. Why does a salad become soggy and wilted when the dressing has been on it for a while? Explain in terms of osmosis. Name ___________________________________ Date ___________________ Period ____ Diffusion Virtual Lab http://www.glencoe.com/sites/common_assets/science/virtual_labs/LS03/LS03.html Background information: A cell membrane permits some materials to pass through while keeping other materials out. Such a membrane is called “selectively permeable.” Under normal conditions, water constantly passes in and out of this membrane. This diffusion of water through a selectively permeable membrane is called osmosis. Like other substances, water diffuses from an area of higher concentration to an area of lower concentration. When the movement of water molecules in and out of a cell reaches the same rate, a state of equilibrium is reached. If the concentration of water molecules is greater outside a cell, then the solution is hypotonic to the cell. Water will move into the cell by osmosis. The pressure against the inside of the cell membrane will steadily increase. If the pressure becomes great enough, the cell membrane will burst. A solution is isotonic to the inside of the cell when there is the same concentration of water molecules on the inside and outside of the cell membrane. To maintain equilibrium, water molecules move into and out of the cell at the same rate. Suppose a living cell is placed in a solution that has a higher salt concentration than the cell has. Such a solution is hypertonic to the cell, because there are more salt ions and fewer water molecules per unit volume outside the cell than inside. Water will move from the area of higher water concentration (inside the cell) to the area of lower water concentration (outside the cell). The selectively permeable membrane does not allow salt ions to pass into the cell. The cell shrinks as the cell loses water. Objectives: • • • Describe the process of osmosis Observe the movement of water through cell membranes during the process of osmosis Compare and contrast three osmotic states: hypotonic, isotonic, and hypertonic Procedure: Red Blood Cell __1. Select the red blood cell at the top of the screen and drag it into the hypotonic beaker. __2. Observe the process of osmosis. Determine whether water (represented as blue arrows) moves into, stays in equilibrium, or moves out of the cell. Observe what happens to the shape and size of the cell. __3. Record your observations in the Data Table. __4. Click at the bottom. Now drag the red blood cell to the isotonic beaker. Observe the process of osmosis again and record your observations in the Data Table. __5. Click at the bottom. Now drag the red blood cell to the hypertonic beaker. Observe the process of osmosis again and record your observations in the Data Table. Elodea Cell __1. Select the elodea cell at the top of the screen and drag it into the hypotonic beaker. __2. Observe the process of osmosis. Determine whether water (represented as blue arrows) moves into, stays in equilibrium, or moves out of the cell. Observe what happens to the shape and size of the cell. __3. Record your observations in the Data Table. __4. Click at the bottom. Now drag the elodea cell to the isotonic beaker. Observe the process of osmosis again and record your observations in the Data Table. __5. Click at the bottom. Now drag the elodea cell to the hypertonic beaker. Observe the process of osmosis again and record your observations in the Data Table. Paramecium Cell __1. Select the paramecium cell at the top of the screen and drag it into the hypotonic beaker. __2. Observe the process of osmosis. Determine whether water (represented as blue arrows) moves into, stays in equilibrium, or moves out of the cell. Observe what happens to the shape and size of the cell. __3. Record your observations in the Data Table. __4. Click at the bottom. Now drag the paramecium cell to the isotonic beaker. Observe the process of osmosis again and record your observations in the Data Table. __5. Click at the bottom. Now drag the paramecium cell to the hypertonic beaker. Observe the process of osmosis again and record your observations in the Data Table. Cut out and place data table in lab journal Data Table Molecules Name Red Blood Cell: Net Water Movement In or Out? Red Blood Cell: Appearance of Cell Elodea: Net Water Movement In or Out? Elodea: Appearance of Cell Paramecium: Net Water Movement In or Out? Paramecium: Appearance of Cell Hypotonic Solution Isotonic Solution Hypertonic Solution Analysis: Answer the following questions in your lab journal 1. Did water move into or out of the cell while it was surrounded by a hypotonic solution? 2. Did water move into or out of the cell while it was surrounded by a hypertonic solution? 3. Did water move into or out of the cell while it was surrounded by an isotonic solution? 4. Compare and contrast what happens to an animal, a plant, and a paramecium cell in a hypotonic, hypertonic, and isotonic solution. 5. Could elodea or paramecium from a freshwater lake be expected to survive if transplanted into the ocean? Explain. 6. If you grill a steak, would it be better to put salt on it before or after you cooked it? Explain in terms of osmosis. 7. Why does salad become soggy and wilted when the dressing has been on it for a while? Explain in terms of osmosis. 8. An effective way to kill weeds is to pour salt water on the ground around the plants. Explain why the weeds die, using the principles discovered in the virtual lab. Lab Journal Format Title& Purpose& Terms:& 1. Selectively&permeable& 2. Osmosis& 3. Diffuse& 4. Hypotonic& 5. Isotonic& 6. Hypertonic& & Data&Table& Analysis& 1.& 2.& 3.& 4.& 5.& 6.& 7.& 8.&
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Explanation & Answer

Attached.

Diffusion Virtual Lab Data Sheet

Name…

Complete The Data Table
Molecule
Name

Red Blood
Cell
Net water
Movement
In/out

Red Blood Cell
Appearance of
cell

Elodea
Net water
Movement
In/out

Elodea
Appearance
of cell

Paramecium
Net water
Movement
In/out

Paramecium
Appearance
of cell

Hypotonic
Solution

In

Increased in
size.

In

Increased
in size.

In

Increased
in size

Isotonic
Solution

I...


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