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Driving question: How does a tree grow and live?

Driving question: How does a tree grow and live?. What & How. What does the tree need in order to grow and live? How tree use them to grow and live?. Inputs and outputs in a tree. Can you decode what happens inside a tree and how does a tree grow and live?.

richardmdouglas
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Driving question: How does a tree grow and live?

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  1. Driving question: How does a tree grow and live? What & How • What does the tree need in order to grow and live? • How tree use them to grow and live?

  2. Inputs and outputs in a tree Can you decode what happens inside a tree and how does a tree grow and live?

  3. Flow chart of tracing materials inside the tree Minerals (inorganic) H2O (inorganic) H2O (inorganic) chloroplast Photosynthesis CO2 (inorganic) CO2 (inorganic) Glucose (organic) Cell walls, cytoplasm Biosynthesis Sunlight energy Plant biomass (large organic molecules) Inside tree Cellular Respiration Cells membrane, mitochondria Inside tree Minerals for cells growth Energy for plant function Outside tree

  4. Biosynthesis part

  5. How does a tree’s trunk grow? Leaves Branch Trunk Roots

  6. Matter movement of biosynthesis at macroscopic scale Large scale scales scales Macroscopic Microscopic Atomic molecular Matter Process Material identity Matter Movement Analyzing photosynthesis Biosynthesis All filter Energy Cellular respiration Energy transformation Blank

  7. Matter transformation of biosynthesis at macroscopic scale Large scale Large organic molecules Glucose scales scales Macroscopic Minerals Water Microscopic Atomic molecular Matter Process Material identity Matter Movement Analyzing photosynthesis Biosynthesis All filter Energy Cellular respiration Energy transformation Blank

  8. Energy transformation of biosynthesis at macroscopic scale Large scale Heat Chemical energy Chemical energy scales scales Macroscopic Microscopic Atomic molecular Matter Process Material identity Matter Movement Analyzing photosynthesis Biosynthesis All filter Energy Cellular respiration Energy transformation Blank

  9. Biosynthesis at macroscopic scale Heat Large scale Chemical energy Chemical energy Glucose Large organic molecules scales scales Macroscopic Microscopic Minerals Water Atomic molecular Matter Process Material identity Matter Movement Analyzing photosynthesis Biosynthesis All filter Energy Cellular respiration Energy transformation Blank

  10. What happens of biosynthesis at microscopic scale ?

  11. Matter movement of biosynthesis at microscopic scale Large scale Macroscopic scales scales Microscopic Atomic molecular Matter Process Matter Movement Material identity Analyzing Photosynthesis Biosynthesis All Energy Cellular respiration Energy transformation Blank

  12. Matter transformation of biosynthesis at microscopic scale Large scale Macroscopic scales scales Minerals Microscopic Atomic molecular Matter Process Matter Movement Material identity Analyzing Photosynthesis Biosynthesis All Energy Cellular respiration Energy transformation Blank

  13. Energy transformation of biosynthesis at microscopic scale Large scale Heat Macroscopic Chemical energy Chemical energy scales scales Microscopic Atomic molecular Matter Process Matter Movement Material identity Analyzing Photosynthesis Biosynthesis All Energy Cellular respiration Energy transformation Blank

  14. Biosynthesis at microscopic scale Heat Chemical energy Large scale Chemical energy Macroscopic scales scales Minerals Microscopic Atomic molecular Matter Process Matter Movement Material identity Analyzing Photosynthesis Biosynthesis All Energy Cellular respiration Energy transformation Blank

  15. What happens of biosynthesis at atomic-molecular scale ? P K

  16. Matter movement of biosynthesis at atomic-molecular scale Large scale Macroscopic Microscopic scales scales Click to see animation Atomic molecular Matter Process Matter Movement Material identity Analyzing Photosynthesis Biosynthesis All Energy Cellular respiration Energy transformation Blank

  17. Matter transformation of biosynthesis at atomic-molecular scale Large scale Macroscopic Starch & cellulose Sugar Microscopic P P K K scales scales Minerals Atomic molecular Protein Matter Process Matter Movement Material identity Analyzing Photosynthesis Biosynthesis All Energy Cellular respiration Energy transformation Blank

  18. Energy transformation of biosynthesis at atomic-molecular scale Large scale Heat Macroscopic Chemical energy Microscopic P K scales scales Chemical energy Atomic molecular Matter Process Matter Movement Material identity Analyzing Photosynthesis Biosynthesis All Energy Cellular respiration Energy transformation Blank

  19. Biosynthesis at atomic-molecular scale Heat Chemical energy Large scale Chemical energy Macroscopic Starch & cellulose Sugar Microscopic P P K K scales scales Protein Minerals Atomic molecular Matter Process Matter Movement Material identity Analyzing Photosynthesis Biosynthesis All Energy Cellular respiration Energy transformation Blank

  20. The End

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