Module 3 Exchange Surfaces

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Presentation transcript:

Module 3 Exchange Surfaces 7.1 Special surfaces for exchange

What is the surface area of each ‘organism’? Amoeba Mouse Build a mouse! e.g. A block measuring 3cm x 3cm x 3cm Build a amoeba! e.g. A cube measuring 1cm x 1cm x 1cm What is the surface area of each ‘organism’? What is the volume of each ‘organism’? Calculate and compare the surface area to volume ratio for the ‘amoeba’ and ‘mouse’ What do you notice about the relationship between the size of the organism and it’s surface-area-to-volume-ratio https://www.youtube.com/watch?v=xuG4ZZ1GbzI STARTER ACTIVITY – need card and scissors and rulers and pencils - could be done using plasticine models and rough guide to measurements?

Learning Objectives Success Criteria Explain in terms of surface-area-to-volume-ratio, why multicellular organisms have specialised exchange surfaces and single celled organisms do not List why organisms need special exchange surfaces (Grade E - D) Describe and explain the features that make an exchange surface efficient (Grade C –B) Explain in terms of surface area to volume ratio how multicellular organisms are different to unicellular organisms (Grade B – A)

Why organisms need special exchange surfaces Living cells must be able to take up simple substances from their environment. They also need to remove waste products from metabolic activities. Task - On your post it write down one of these substances /products - Stick your post it on the board and explain why it is important Looking at your model of a single-celled and multicellular organism describe how they exchange these important substances/products use keyword surface-area-volume-ratio List why organisms need special exchange surfaces (Grade D – C)

Single Celled Organisms Exchange gases, nutrients and wastes can diffuse directly in and out of the cell across the cell surface membrane. They have a large surface-area-volume-ratio. Diffusion rate is quick as substances only have to travel small distances

Multicellular Organisms need special exchange surfaces Diffusion across the outer membrane is too slow for 3 reasons 1) some cells are deep within the body there is a big distance between them and the outside environment

2) low surface area to volume ratio It is difficult to exchange enough substances to supply a large volume of oxygen through a small outer surface When 𝜋=3.14

3) Multicellular organisms are often very active which means a lot of cells are respiring very quickly  need a constant, rapid supply of glucose and O2 Molecules such as hormones or enzymes are made in one place but needed in another Food will be digested in one organ system and need to be transported to every cell for use in respiration and other aspects of cell metabolism Waste products of metabolism need to be removed and transported to excretory systems

Job Advert Create a job advert for an exchange surface. Include all the feature necessary to make a good exchange surface. Describe and explain the features that make an exchange surface efficient (Grade C –B)

Examples of specialised exchange surfaces Alveoli of the lungs Students to discuss in pairs and feedback why each of the following require specialised exchange surfaces

Examples of specialised exchange surfaces Small intestine

Examples of specialised exchange surfaces Liver- blood sugar

Examples of specialised exchange surfaces Root Hair Cells in Plants

Plenary Explain why large, active organisms need specialised surfaces for exchange. (3 marks) Large mammals have a high demand for oxygen for respiration, which can’t be met by diffusion alone as their surface area : volume ratio is too low. A specialised exchange surface gives a greater area, so more oxygen can be absorbed and more carbon dioxide can be removed. Explain in terms of surface area to volume ratio how multicellular organisms are different to unicellular organisms (Grade B – A)