BIOLOGY
Cell Structure
Cell Structure: Includes the study of prokaryotic and eukaryotic organelles, microscopy techniques, and the structure of viruses. (A)
Cell Structure: Includes the study of prokaryotic and eukaryotic organelles, microscopy techniques, and the structure of viruses. (B)
Cell Structure: Includes the study of prokaryotic and eukaryotic organelles, microscopy techniques, and the structure of viruses. (C)
Biological Molecules
Biological Molecules: Covers the biochemistry of carbohydrates, lipids, and proteins; the properties of water; and the mechanics of enzyme action and kinetics. (A)
Biological Molecules: Covers the biochemistry of carbohydrates, lipids, and proteins; the properties of water; and the mechanics of enzyme action and kinetics. (A)
Biological Molecules: Covers the biochemistry of carbohydrates, lipids, and proteins; the properties of water; and the mechanics of enzyme action and kinetics.. (A)
Cell Membranes and Transport
Cell Membranes and Transport: Focuses on the fluid mosaic model and mechanisms for moving substances, including diffusion, osmosis, and active transport. (A)
Cell Membranes and Transport: Focuses on the fluid mosaic model and mechanisms for moving substances, including diffusion, osmosis, and active transport. (B)
Cell Membranes and Transport: Focuses on the fluid mosaic model and mechanisms for moving substances, including diffusion, osmosis, and active transport. (C)
The Cell Cycle
The Cell Cycle: Details the mechanics of mitosis, DNA replication, and the role of stem cells in growth, repair, and differentiation. (A)
The Cell Cycle: Details the mechanics of mitosis, DNA replication, and the role of stem cells in growth, repair, and differentiation. (B)
The Cell Cycle: Details the mechanics of mitosis, DNA replication, and the role of stem cells in growth, repair, and differentiation. (C)
Exchange and Transport
Exchange and Transport: Analyzes gas exchange systems (lungs, gills, insects), the mammalian circulatory system (heart and vessels), and transport mechanisms in plants (xylem and phloem). (A)
Exchange and Transport: Analyzes gas exchange systems (lungs, gills, insects), the mammalian circulatory system (heart and vessels), and transport mechanisms in plants (xylem and phloem). (B)
Exchange and Transport: Analyzes gas exchange systems (lungs, gills, insects), the mammalian circulatory system (heart and vessels), and transport mechanisms in plants (xylem and phloem).(C)
Genetic Variety
Classification
Natural Selection
Natural Selection: Initial concepts of how organisms adapt to their environment. (A)
Natural Selection: Initial concepts of how organisms adapt to their environment. (B)
Natural Selection: Initial concepts of how organisms adapt to their environment. (C)
Photosynthesis
Photosynthesis: In-depth study of light-dependent and light-independent reactions. (A)
Photosynthesis: In-depth study of light-dependent and light-independent reactions. (B)
Photosynthesis: In-depth study of light-dependent and light-independent reactions. (C)
Respiration
Respiration: Detailed biochemistry of aerobic and anaerobic respiration and the production of ATP. (A)
Respiration: Detailed biochemistry of aerobic and anaerobic respiration and the production of ATP. (B)
Respiration: Detailed biochemistry of aerobic and anaerobic respiration and the production of ATP.. (C)
Control Systems
Control Systems: Covers nervous coordination (neurons and synapses) and muscle contraction mechanisms. (A)
Control Systems: Covers nervous coordination (neurons and synapses) and muscle contraction mechanisms. (B)
Control Systems: Covers nervous coordination (neurons and synapses) and muscle contraction mechanisms. (C)
Homeostasis
Homeostasis: The maintenance of internal stability, specifically kidney function (osmoregulation) and blood glucose control(A)
Homeostasis: The maintenance of internal stability, specifically kidney function (osmoregulation) and blood glucose control (B)
Homeostasis: The maintenance of internal stability, specifically kidney function (osmoregulation) and blood glucose control (C)
Genetics and Inheritance
Genetics and Inheritance: Focuses on monohybrid and dihybrid inheritance, epistasis, and statistical analysis using the Chi-squared test (A)
Genetics and Inheritance: Focuses on monohybrid and dihybrid inheritance, epistasis, and statistical analysis using the Chi-squared test. (B)
Genetics and Inheritance: Focuses on monohybrid and dihybrid inheritance, epistasis, and statistical analysis using the Chi-squared test. (C)
Evolution and Speciation
Evolution and Speciation: Explores population genetics, natural selection, and the processes that lead to the formation of new species.(A)
Evolution and Speciation: Explores population genetics, natural selection, and the processes that lead to the formation of new species. (B)
Evolution and Speciation: Explores population genetics, natural selection, and the processes that lead to the formation of new species. (C)
Ecology
Ecology: Analyzes energy flow through trophic levels, nutrient cycling, and strategies for the conservation of biodiversity..(A)
Ecology: Analyzes energy flow through trophic levels, nutrient cycling, and strategies for the conservation of biodiversity.. (B)
Ecology: Analyzes energy flow through trophic levels, nutrient cycling, and strategies for the conservation of biodiversity.. (C)