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Set up Cornell Notes on pg. 43 Topic: 4.2/4.3 Intro to Photosynthesis Essential Question :

4.2/4.3 Intro to Photosynthesis. 2.1 Atoms, Ions, and Molecules. Set up Cornell Notes on pg. 43 Topic: 4.2/4.3 Intro to Photosynthesis Essential Question : What are the role of chloroplasts and chlorophyll in photosynthesis? Don’t forget to add it to your T.O.Contents!.

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Set up Cornell Notes on pg. 43 Topic: 4.2/4.3 Intro to Photosynthesis Essential Question :

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  1. 4.2/4.3 Intro to Photosynthesis 2.1 Atoms, Ions, and Molecules • Set up Cornell Notes on pg. 43 • Topic: 4.2/4.3 Intro to Photosynthesis • Essential Question: What are the role of chloroplasts and chlorophyll in photosynthesis? • Don’t forget to add it to your T.O.Contents! What are the role of chloroplasts and chlorophyll in photosynthesis? Key Concept: The overall process of photosynthesis produces sugars that store chemical energy

  2. SPONGE • How does ATP become ADP? • Which has more energy? • How does ADP become ATP again?

  3. phosphate removed • ATP becomes ADP when a phosphate group is removed and energy is released. • ATP has more energy ADP has less energy • ADP can be converted back into ATP by the addition of a phosphate group.

  4. CA Standard • The fundamental life processes of plants and animals depend on a variety of chemical reactions that occur in specialized areas of the organism’s cells. 1.F Know usable energy is captured from sunlight by chloroplastsand is stored through the synthesis of sugar from carbon dioxide.

  5. Table Talk Imagine you just planted beautiful roses in your garden. What materials are crucial to the roses survival? In other words, what do the roses need to stay alive?

  6. Water • (H20) • Sunlight • Carbon Dioxide (CO2) • Soil What materials are crucial to the roses survival? In other words, what do the roses need to stay alive?

  7. KEY CONCEPTThe overall process of photosynthesis produces sugars that store chemical energy.

  8. List a few things that use energy from sunlight.

  9. Solar powered homes, cars, and calculators are just a few things that use energy from sunlight. In a way you are solar powered. Although the sun does not directly give you the energy.

  10. How do we get our chemical energy?

  11. How do we get our chemical energy? Plants from the sun Animals from plants or other animals that fed on plants

  12. Photosynthesis is a process that captures energy from sunlight to make sugars that store chemical energy. Therefore, directly or indirectly, the energy for almost all organisms begins as sunlight. (Sugar)

  13. Photosynthetic organisms are producers. • Producers make their own source of chemical energy (they make their own food). • Ex: Plants

  14. chloroplast leaf cell leaf • Chlorophyll is a molecule that absorbs light energy. • In plants, chlorophyll is found in organelles called chloroplasts. • Photosynthesis occurs here.

  15. What are the roles of chloroplasts and chlorophyll in photosynthesis? Photosynthesis occurs in chloroplasts. Chlorophyll is a light-absorbing molecule located in chloroplasts.

  16. grana chloroplast stroma • Photosynthesis takes place in two parts of chloroplasts. • thylakoid • Coin-shaped compartments that contain chlorophyll • grana- stacks of thylakoids • Stroma • Fluid that surrounds the grana Thylakoid

  17. Sponge • Where does photosynthesis take place? • What is the function of chlorophyll? • List the 2 products of photosynthesis.

  18. Sponge • Where does photosynthesis take place? Chloroplasts 2. What is the function of chlorophyll? To absorb the energy from the sunlight • List the 2 products of photosynthesis. • Oxygen (O2) • Sugar

  19. granum (stack of thylakoids) 1 chloroplast sunlight 6H2O 6O2 2 energy thylakoid stroma (fluid outside the thylakoids) 6CO2 1 six-carbon sugar C6H12O6 3 4 • The equation for photosynthesis is: 6CO2 + 6H2O  C6H12O6 + 6O2 Carbon dioxide water light, enzymes a sugar oxygen

  20. Light-dependent reactions capture energy from sunlight (The reactions depend on light!).

  21. granum (stack of thylakoids) 1 chloroplast sunlight 6H2O 6O2 2 energy thylakoid stroma (fluid outside the thylakoids) 6CO2 1 six-carbon sugar C6H12O6 3 4 Light DEpendent Light INdependent

  22. Light Dependent reactions- take place in the thylakoids • Sunlight is absorbed by chlorophyll • The energy is carried by ATP and NADPH molecules • 6 H2O (water) molecules are broken down • 6 O2 (oxygen) are released as waste

  23. The first stage of photosynthesis captures and transfers energy. • The light-dependent reactions include groups of molecules called photosystems. • Photosystems are molecules that capture and transfer energy in the thylakoids.

  24. chlorophyll absorbs energy from sunlight • energized electrons enter electron transport chain- which is a series of proteins in the membrane of the thylakoid • water molecules are split • H+ ions • Electrons • Oxygen • Photosystem II captures and transfers energy. • Oxygen is released as waste

  25. hydrogen ions are transported across thylakoid membrane • Photosystem II captures and transfers energy.

  26. Photosystem I captures energy and produces energy-carrying molecules. • The electrons from photosystem II move on to photosystem I • chlorophyll absorbs energy from sunlight (even more high-energy electrons) • The electrons are added to NADP+ (similar to ADP) which are used to make NADPH (enzyme like ATP) • NADPH is transferred to light-independent reactions

  27. Photosystem I captures energy and produces energy-carrying molecules. • Hydrogen ions diffuse through the thylakoid membrane • ATP is produced

  28. hydrogen ions flow through a channel in the thylakoid membrane • ATP synthase attached to the channel makes ATP • The energy from both ATP and NADPH is used to make sugars during light-independent reactions. • The light-dependent reactions produce ATP.

  29. The light-independent reactions use energy from light-dependent reactions to make sugars. • takes place in the stroma • needs 6 CO2 (Carbon Dioxide) from atmosphere • uses light-Dependent ATP/NADPH (energy) to build a sugar molecule which stores some of the energy that was captured from sunlight

  30. Calvin Cycle

  31. The second stage of photosynthesis uses energy from the first stage to make sugars. • Light-independent reactions occur in the stroma and use CO2 molecules.

  32. Calvin Cycle: uses carbon dioxide CO2 gas from the atmosphere and the energy carried by ATP and NADPH to make simple sugars. • 1. carbon dioxide molecules enter the Calvin cycle • 2. energy is added and carbon molecules are rearranged • 3. a high-energy three-carbon molecule leaves the cycle 2. 3. Split into 2, 3-carbon molecules 1.

  33. 4. two three-carbon molecules bond to form a sugar • 5. remaining molecules stay in the cycle • 6. 3-carbon molecules are changed back into 5-carbon molecules using ATP 4. 5. 6.

  34. 2. 4. 3. 1. sugar 5. 6.

  35. Sponge #5 What are the reactants and products of photosynthesis?

  36. Reactants: (What do we need for photosynthesis? • Sunlight • H2O water • CO2 carbon dioxide • Products: • O2 oxygen • Glucose (sugar) • The equation for photosynthesis is: • 6CO2 + 6H2O  • C6H12O6 + 6O2

  37. Light dependent reactions Sunlight + H20 ------------------------------ O2 reactions in thylakoids CO2 ------------------------------------ 1 six-carbon sugar Calvin cycle ATP NADPH Light independent reactions

  38. SPONGE 4 • What are light-dependent reactions? Name their product. • What are light-independent reactions? Name their product.

  39. Light-dependent reactions capture energy from sunlight and produces oxygen as a byproduct. Light-independent reactions use energy from the light-dependent reactions to make sugars. ATP NADPH

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