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Cellular Energy

Investigate chemical principles of photosynthesis, respiration & glycolysis for life processes. Understand energy flow in ecosystems through capture & storage processes.

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Cellular Energy

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  1. Cellular Energy SOL: BIO 3 d

  2. BIO SOL: 3d • The student will investigate and understand the chemical and biochemical principles essential for life. Key concepts include: • the capture, storage, transformation, and flow of energy through the processes of photosynthesis and respiration.

  3. Cellular Energy • The breakdown of nutrient molecules enables all cells to store energy in specific chemicals that are used to carry out the life functions of the cell. • ATP (adenosine triphosphate) is the energy of life.

  4. Cellular Energy • Photosynthesis and cell respiration are complementary processes for cycling carbon dioxide and oxygen as well as transferring energy in ecosystems. • The reactions are opposites of each other. The products produced from one reaction are the reactants needed to fuel the other.

  5. 3 ways to make energy: 1. PHOTOSYNTHESIS - Plant cells and many microorganisms use solar energy to combine molecules of carbon dioxide (CO2 ) and water (H2O) into complex, energy-rich organic compounds (glucose C6H12O6) and release oxygen (O2) into the environment.

  6. 3 ways to make energy:PHOTOSYNTHESIS sunlight Carbon dioxide + Water Glucose + Oxygen 6CO2 + 6H2O C6H12O6 + 6O2 chlorophyll sunlight chlorophyll

  7. 3 ways to make energy:PHOTOSYNTHESIS • The process of photosynthesis provides a vital connection between the sun and the energy needs of living systems.

  8. 3 ways to make energy:PHOTOSYNTHESIS

  9. 3 ways to make energy: 2.RESPIRATION- OCCURS IN THE MITOCHONDRIA During cell respiration, eukaryotic cells “burn” glucose molecules with oxygen, which produces energy (ATP), carbon dioxide, and water. This process requires OXYGEN. It is aerobic. When cells need energy to do work, certain enzymes release the energy stored in the chemical bonds of ATP.

  10. 3 ways to make energy:RESPIRATION Glucose + Oxygen Carbon dioxide + Water + ATP C6H12O6 + 6O2 6CO2 + 6H2O + ATP

  11. 3 ways to make energy: 3. GLYCOLYSIS- (anaerobic respiration) OCCURS IN THE CYTOPLASM Also know as FERMENTATION glucose is broken down without oxygen into carbon dioxide, ATP, and alcohol

  12. 3 ways to make energy:GLYCOLYSIS • Yeast and other unicellular organisms use this process

  13. 3 ways to make energy:GLYCOLYSIS • When your muscles run out of glucose they will use this process to make energy. Your muscles produce lactic acid instead of alcohol.

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