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Objective: You will be able to identify and give the function of a leaf.

Objective: You will be able to identify and give the function of a leaf. Do Now: Read, “The photosynthesis equation on p. 206 Compare this equation with the equation for respiration. Figure 10.2 Focusing in on the location of photosynthesis in a plant.

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Objective: You will be able to identify and give the function of a leaf.

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  1. Objective: You will be able to identify and give the function of a leaf. Do Now: • Read, “The photosynthesis equation on p. 206 • Compare this equation with the equation for respiration

  2. Figure 10.2 Focusing in on the location of photosynthesis in a plant

  3. Figure 10.6 Why leaves are green: interaction of light with chloroplasts

  4. Objective:You will be able to compare and contrast the light dependent reactions and the Calvin cycle. Do Now: • Read “Inside a chloroplast” on p. 208 • Describe a photosystem

  5. Figure 10.9 Location and structure of chlorophyll molecules in plants

  6. Figure 10.11 How a photosystem harvests light

  7. Light CO2 Sugars O2 Figure 8-7 Photosynthesis: An Overview Section 8-3 Chloroplast Chloroplast NADP+ ADP + P Light- Dependent Reactions Calvin Cycle ATP NADPH

  8. Objective: You will be able to discuss how the light reactions generate ATP and NADPH. Do Now: • Read, “Electron Carriers” on p. 208-209 • What is the function of NADP+?

  9. Figure 10.11 How a photosystem harvests light

  10. Figure 10.12 How noncyclic electron flow during the light reactions generates ATP and NADPH (Layer 5)

  11. Figure 10.12 How noncyclic electron flow during the light reactions generates ATP and NADPH (Layer 1)

  12. Figure 10.12 How noncyclic electron flow during the light reactions generates ATP and NADPH (Layer 2)

  13. Figure 10.12 How noncyclic electron flow during the light reactions generates ATP and NADPH (Layer 3)

  14. Figure 10.12 How noncyclic electron flow during the light reactions generates ATP and NADPH (Layer 4)

  15. Figure 10.12 How noncyclic electron flow during the light reactions generates ATP and NADPH (Layer 5)

  16. Figure 10.13 A mechanical analogy for the light reactions

  17. Objective:You will be able to describe how CO2 is converted into sugar during the Calvin Cycle. Do Now: • Read, “The Calvin Cycle” on p. 213 only • Explain the relationship between the light dependent reactions and the Calvin Cycle.

  18. Figure 10.4 An overview of photosynthesis: cooperation of the light reactions and the Calvin cycle (Layer 3)

  19. Figure 10.17 The Calvin cycle (Layer 1)

  20. Figure 10.17 The Calvin cycle (Layer 2)

  21. Figure 10.17 The Calvin cycle (Layer 3)

  22. Scientific Experiment Design • Identify independent and dependent variables • Describe experimental treatment • Identify the control setup • State a hypothesis with reason • Outline the experimental procedures • Describe expected results • Provide an explanation for results

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