Respuesta :
Answer:
12. Explain the process of classification of living organisms, including the hierarchical categories
used in the Linnaean system. Provide examples of organisms at each taxonomic level.
13. Describe the steps involved in the scientific method and how it is applied in biological research.
14. Describe the steps of the scientific method and how it is applied in biological research.
Provide a hypothetical example to demonstrate each step.
25. Explore the different levels of organization in living organisms, from cells to ecosystems.
16. Discuss the interactions between these levels and their significance.
17. Compare and contrast Kinetic and Potential energy with examples.
18. Compare and contrast prokaryotic and eukaryotic cells, including their structures and
functions. Provide examples of organisms belonging to each cell type.
20. Discuss the role of enzymes in biological systems.
21. Compare and contrast prokaryotic and eukaryotic cells with examples.
22. Investigate the movement of materials in and out of cells, including the processes of
diffusion, osmosis, and active transport. Provide examples of each process in biological
systems.
23. Explain about pH and Draw the pH scale.
24. Analyze the role of water in biological systems, including its properties and functions.
25. Discuss how water contributes to the maintenance of homeostasis in living organisms.
26. Explore the four main types of biomolecules found in living organisms: carbohydrates, lipids,
proteins, and nucleic acids.
27. Discuss their structures, functions, and importance in biological systems.
28. Explain the characteristics of living things and provide examples of each.
29. Explain the process of metabolism, including the difference between anabolic and catabolic
reactions. Provide examples of metabolic pathways and their significance in living
organisms.
30. Explain about metabolism with examples
31. Discuss the laws of thermodynamics and their relevance to biological systems.
32. Explain how these laws govern energy transformations in living organisms and ecosystems.
33. Describe the concept of cell tonicity and its implications for cell function.
