Transport foldable Directions Fold 3 pieces of paper
Transport foldable Directions: • • Fold 3 pieces of paper, so you have 5 layered flaps Write “Cell Transport” on the bottom flap as a title On each flap write: 1. Passive Transport 2. Examples of Passive Transport 3. Osmotic Pressure 4. Active Transport 5. Comparing Types of Transport
1. Passive Transport (Inside) On Bottom Half of 1 st Flap write: Passive transport is l l l movement of molecules without energy across a membrane goes with the gradient= “with the flow of traffic” high concentration to a low concentration.
2. Examples of Passive Transport Turn the foldable sideways and glue the picture/diagram on the left half and write the description on the right half. Picture Description
Example 1 Directions: 1. Cut out panel and glue into flap Low High 2. Write the definition in the opposite column. Diffusion- movement of molecules from a high to a low concentration. 3. Color the area of high concentration red and the area of low concentration orange.
Example 2 Directions: 1. Cut out panel and glue into flap High Concentration Carrier Protein Low Concentration 2. 3. Write the definition in the opposite column. Facilitative diffusion- movement of molecules from high to low with the help of transport (carrier) proteins Label the area of high concentration red and the area of low concentration orange. Color the carrier proteins green
Example 3 Directions: 1. Cut out panel and glue into flap L H L 2. 3. H Write the definition in the opposite column. Osmosis- movement of WATER high to low concentration Highlight the arrows on the diagram that show the movement of water in yellow. Label in red the areas of high concentration red, and the areas of low concentration in orange
3. Osmotic Pressure
Directions: 1. Write the definition in the top half. Osmotic Pressure- the pressure exerted by the flow of water against a semi permeable membrane 2. Cut out panel and glue beneath definition
3. Write the definition for each type of osmotic pressure below the pictures Hypotonic Isotonic Hypertonic • water moves INTO a cell • water moves IN and OUT of cell • water moves OUT of the cell • cell swells • dynamic equilibrium • cell shrivels • no change in shape of cell
4. Active Transport (Inside) On Top Half of 4 th Flap write: Active transport is… l l movement of molecules with energy across a membrane goes against the gradient= “against the flow of traffic” low concentration to high concentration uses transport (carrier) proteins
Directions: 1. Cut out panel and glue into beneath definition (on top half of flap) Carrier Low concentration Protein High concentration 2. Label in red the areas of high concentration red, and the areas of low concentration in orange. Color the carrier proteins green and the ATP yellow
(Inside) On Bottom Half of 4 th Flap: Example 1 Directions: 1. Cut out panel and glue into flap High concentration Low concentration 2. Write the definition below the picture. Exocytosis- discharge of large cell particles requiring the use of energy 3. Label the area of high concentration red and the area of low concentration orange.
(Inside) On Bottom Half of 4 th Flap: Example 2 Directions: 1. Cut out panel and glue into flap below the exocytosis picture and Low concentration definition 2. 3. High concentration Write the definition below the picture. Endocytosis- ingestion of large cell particles requiring the use of energy Label the area of high concentration red and the area of low concentration orange.
5. Comparing Types of Transport
(Inside) On Top Half of 5 th Flap: High concentration PO NS GY T RA ET TIV OR AC Y G SP AN TR ER ER EN VE EN NO I SS Low concentration PA RT Directions: 1. Draw the following: Low concentration
(Inside) On Bottom Half of 5 th Flap: Directions: 1. Draw & Complete the following Venn Diagram: PASSIVE ACTIVE
On Back of Foldable • Title the booklet “Cell Transport” • Write the title neatly - add some color, drawings, designs, embellished lettering, etc. , to make this page look appealing • Write your name, the block, and the date in the bottom right hand corner
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