Date / Topics / Classwork / Homework
2/14 / Intro to Cellular Respiration / Cell Resp Tutorial and Candy Bar Calculation / 1. Cell Resp Video and Notes
2.Chp 7 reading and notes
2/15 / Glycolysis
(Chp 7 Note Quiz) / Cell Resp POGIL / 1. Cellular Respiration ‘Story’
2. Glycolysis Video and Notes
3. Kreb’s Cycle Video and Notes
2/16 / Krebs Cycle and ETC / Lecture notes and modeling activity / 1. Cell Resp Worksheet
2. Oxidative Phosphorylation Video and Notes
2/21 / Case Study Analysis / Case study project / 1. Cellular Respiration Graphing Analysis
2.
Cell Respiration Lab / Lab Analysis/Environmental Factors / Study for unit exam
2/22 / Cellular Respiration Unit Exam

Cellular Respiration Unit Plan

  1. Describe what free energy is.
  2. Explain how life is able to adhere to the laws of thermodynamics and accomplish the following life processes:
  3. Growth
  4. Increase in Order/Maintain organization
  5. Decrease in Entropy
  6. Reproduction
  7. Describe how metabolic pathways maximize efficiency and control release of free energy.
  8. Describe methods of obtaining free energy by organisms.
  9. Describe the relationship of metabolic rate and size.
  10. Describe what happens if there is an excess of free energy or an insufficient amount of free energy for an organism.
  11. How can changes in free energy affect individuals, populations or ecosystems?
  12. Be able to solve a Gibbs free energy math problem.
  13. Describe the role of ATP in the production of cellular work.
  14. Compare exergonic and endergonic processes. Provide several examples of each.
  15. Compare anabolic and catabolic processes. Provide several examples of each.
  16. Compare/contrast the major features of chemoheterotrophic and photoautotrophic nutritional processes.
  17. Explain the necessity of electron shuttles in metabolic pathways.
  18. Explain the inputs, major processes, and outputs of glycolysis, fermentation, and aerobic cellular respiration.
  19. Trace the movement of energy and matter through all respiratory processes.
  20. Localize all respiratory processes to their locations in a typical eukaryotic cell.
  21. Explain the inputs, major processes, and outputs of the light reactions and the Calvin Cycle.
  22. Trace the movement of energy and matter through all photosynthetic processes.
  23. Localize all photosynthetic processes to their location sin a typical eukaryotic, autotrophic cell.
  24. Describe the process of chemiosmosis and compare its function in photosynthetic and respiratory pathways.
  25. Explain the relationship between photosynthesis and respiration at the subcellular, organismal, and ecosystem levels of organization.
  26. Compare the relative efficiencies of photosynthesis, anaerobic cellular respiration and aerobic cellular respiration.
  27. Explain how energetic requirements contribute to the adaptations of organisms. Provide examples to support your statements. (endothermic and ectothermic)
  28. Propose experimental designs by which the rate of photosynthesis and respiration can be measured and studied.