Chapter 10(4)

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  • Figure 10.1 How can sunlight, seen here as a spectrum of colors in a rainbow, power the synthesis of organic substances?
  • Figure 10.2 Photoautotrophs
  • Figure 10.2 Photoautotrophs
  • Figure 10.2 Photoautotrophs
  • Figure 10.2 Photoautotrophs
  • Figure 10.2 Photoautotrophs
  • Figure 10.2 Photoautotrophs
  • Figure 10.3 Zooming in on the location of photosynthesis in a plant
  • Figure 10.3 Zooming in on the location of photosynthesis in a plant
  • Figure 10.3 Zooming in on the location of photosynthesis in a plant
  • Figure 10.4 Tracking atoms through photosynthesis
  • Figure 10.5 An overview of photosynthesis: cooperation of the light reactions and the Calvin cycle
  • Figure 10.5 An overview of photosynthesis: cooperation of the light reactions and the Calvin cycle
  • Figure 10.5 An overview of photosynthesis: cooperation of the light reactions and the Calvin cycle
  • Figure 10.5 An overview of photosynthesis: cooperation of the light reactions and the Calvin cycle
  • Figure 10.6 The electromagnetic spectrum
  • Figure 10.7 Why leaves are green: interaction of light with chloroplasts
  • Figure 10.8 Determining an absorption spectrum
  • For the Cell Biology Video Space-Filling Model of Chlorophyll a, go to Animation and Video Files.
  • Figure 10.9 Which wavelengths of light are most effective in driving photosynthesis?
  • Figure 10.10 Structure of chlorophyll molecules in chloroplasts of plants
  • Figure 10.11 Excitation of isolated chlorophyll by light
  • Figure 10.12 How a photosystem harvests light
  • Figure 10.13 How linear electron flow during the light reactions generates ATP and NADPH
  • Figure 10.13 How linear electron flow during the light reactions generates ATP and NADPH
  • Figure 10.13 How linear electron flow during the light reactions generates ATP and NADPH
  • Figure 10.13 How linear electron flow during the light reactions generates ATP and NADPH
  • Figure 10.13 How linear electron flow during the light reactions generates ATP and NADPH
  • Figure 10.14 A mechanical analogy for the light reactions
  • Figure 10.15 Cyclic electron flow
  • Figure 10.16 Comparison of chemiosmosis in mitochondria and chloroplasts
  • Figure 10.17 The light reactions and chemiosmosis: the organization of the thylakoid membrane
  • Figure 10.18 The Calvin cycle
  • Figure 10.18 The Calvin cycle
  • Figure 10.18 The Calvin cycle
  • Figure 10.19 C 4 leaf anatomy and the C 4 pathway
  • Figure 10.19 C 4 leaf anatomy and the C 4 pathway
  • Figure 10.19 C 4 leaf anatomy and the C 4 pathway
  • Figure 10.20 C 4 and CAM photosynthesis compared
  • Figure 10.21 A review of photosynthesis
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