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Learning Objectives for Green Biology 9/18/2011 This checklist and self evaluation tracking sheet was corrected from objectives in the ACT Quality core curriculum. It has been reduced down from an extensive list to fit onto a double sided sheet. The full list of objectives should be reviewed when covering a specific topic. The section on laboratory and experimental situations (not included) contain experiment design, observation and measurement, analyzing data and errors, and communication of results. Bexley students will become scientifically literate by: 1. Understanding the nature and history of scientific knowledge. 2. Accurately applying appropriate science concepts, principles, laws, and theories, in Biology, Chemistry, Physics, and advanced study course(s). 3. Using processes of science to gather information, solve problems, and make decisions. 4. Understanding and appreciating the connection between science and technology and the interrelationships of these with each other and the aspects of society. 5. Obtaining the knowledge and skills to extend their science education by using science processes in their everyday life. 6. Developing manipulative skills used in scientific inquiry ACT Standards F.1.a F.1.b F.1.a F.1.g F.1.f F.1.d F.1.g F.1.g F.1.g ACT Standards F.1.i F.1.h F.1.j F.1.b F.1.k F.1.m F.1.h Chapter 1 The Web of Life (7 days) Differentiate between biosphere, biomes, ecosystem, community, population, and species. Distinguish between biotic and abiotic. Describe a habitat and a niche. Explain and diagram energy flow in a community. Differentiate between carnivore, omnivore, herbivore, scavenger, and decomposer. Compare the flow of matter and energy in an energy pyramid. Explain direct and indirect relationships within a food web. Differentiate between food webs and food chains. Explain the 10% rule of energy in a food web. Chapter 2 Populations (7days) and Chapter 3 Communities and Ecosystems (5 days) Chapter 22 Biomes and Chapter 23 Aquatic Ecosystems (8 days) Describe the concept of carrying capacity. Describe examples of competition, symbiosis, and predation. Distinguish between logistic and exponential growth. Give examples of limiting factors (biotic and abiotic). Explain and give examples of ecological succession. Explain and give examples of how humans alter ecosystems. Give examples and compare parasitism, commensalism, and mutualism. 1ST QUARTER BENCHMARK EXAMINATION ACT Standards A.5.a A.5.b A.5.c A.5.d A.5.e A.5.f A.5.i A.5.h A.5.j A.5.g ACT Standards B.1.a B.1.a B.1.b B.1.b B.1.d B.1.g B.1.c B.1.c A.5.d A.5.d B.1.f E.1.a D.1.g Chapter 4 Matter and Energy (16 days) Describe atoms and their subatomic particles arrangement. Recognize ions and their charges. Describe types of bonds that form compounds. Recognize and write chemical reactions and formulas. Explain the difference between organic and inorganic compounds. Explain and apply the pH scale. Explain and list the properties of water. Describe the structure and function of enzymes. Explain how ATP is used in organisms. List and describe the major macromolecules found in all living organisms. Chapter 5 The Cell (16days) Chapter 15 (4 days) Explain the difference between prokaryotic and eukaryotic cells and give examples of each. List and describe the differences between animal and plant cells. Describe the structure of the cell membrane. Identify and describe animal and plant organelles. List modes of motility for cells. Chapter 10 also Contrast the movement of substances (osmosis/diffusion/active and passive transport/endocytosis and exocytosis). Explain the cooperation among organelles and function of organelles. Explain the various ways cell’s communicate. Define and describe cellular respiration and metabolism. Explain the processes of plant cellular respiration. Explain how cells and organisms maintain homeostasis. Chapter 16 also. Describe and compare cells and tissues. Explain the cell theory and the scientists’ contributions. ACT Standards Chapter 18 The Flowering Plant: Form and Function and Chapter 19 The Flowering Plant: Maintenance and Coordination (12 days) E.2.a Describe plant processes (reproduction, movement, growth, and responses). E.2.c-e Compare photosynthesis in C3, C4, and CAM plants and give examples. E.2.f Describe plant responses such as phototropism and gravitropism. A.5.d ACT Standards B.1.j C.1.f Explain the processes of plant cellular respiration. SEMESTER 1 EXAM Chapter 6 Continuity Through Reproduction (3 days) Describe the cell cycle including interphase, mitosis (somatic), and cytokinesis. Describe the phases of Meiosis I and II (germ cells). List and describe the types of asexual reproduction. ACT Standards Chapter 8 Heredity and Genetic Variation (13 days) C.1.a C.1.a C.1.b C.1.c C.1.c C.1.d C.1.i C.1.h C.1.i C.1.i C.1.i C.1.j C.1.m C.1.m C.1.k C.1.k C.1.k C.1.m List and describe the different types of RNA (mRNA, tRNA, rRNA). Explain the structure and importance of DNA and how it is replicated. Describe the experiments of major scientists that led to the advancement in our understanding of DNA. Describe the steps of transcription in making mRNA. Describe the process of translation in the formation of proteins from mRNA. List and describe the types of genetic mutations and their effects. Explain the terms phenotype and genotype. Explain the law of segregation and law of independent assortment. Compare dominant and recessive traits. Compare homozygous (purebred) and heterozygous (hybrid and carrier) genotypes and phenotypes. Explain the difference between co-dominant and incomplete dominant. Explain gene linkages (Sex-linked genes and Linked genes). Define and identify multiple alleles. Explain multifactorial inheritance. Interpret pedigrees for both sex-linked and autosomal traits. Design and complete punnett squares. Apply chi-square analysis from collected data. Describe and compare modes of inheritance (Sickle cell, Hemophilia, Down Syndrome, Color blindness, Etc…). 3rd QUARTER BENCHMARK ACT Standards Chapter 9 Evolution : Patterns and Diversity ( 11 days) D.1.a D.1.d D.1.g D.1.i D.1.b D.1.g D.1.m D.1.n D.1.n D.1.m Explain the theories of Lamarck, Darwin, Wallace, Malthas, and Lyell. Describe and apply the process of natural selection. Identify the modes of evolution such as natural selection, non-random mating, genetic drift, mutations, and gene flow. Describe conditions for speciation (behavioral, geographical, and reproductive isolation) Compare and contrast macro-evolution and micro-evolution. Describe and explain sexual selection and behavior. Explain factors that influence genetic variability. Distinguish between convergent, parallel, divergent, co-evolution. Compare punctuated equilibrium versus gradualism Explain how geology, biochemistry, embryology, comparative anatomy and physiology give evidence of evolutionary relationships. OGT TEST ACT Standards Chapter 10 Ordering life in the Biosphere ( 7 days) D.1.a E.3.b E.3.f E.3.c E.3.d E.3.d E.3.a ACT Standards E.3.e E.3.e E.3.e ACT Standards D.1.g E.1.b Describe the experiment of Urey and Miller (organic evolution) Distinguish between kingdom, phylum, class, order, family, genus, species Explain the alternative form of classification using domains. Use binomial nomenclature to scientifically name an organism and describe Linnaeus’s contribution. Use and create dichotomous keys. Understand the modern system of taxonomy. Classification Criteria Differentiate between kingdom Monera, Protista, Fungi, Plantae, and Animalia Chapter 11 Prokaryotes and Viruses (9 days) List types of DNA and RNA viruses. Describe the life cycle of a virus. List diseases associated with viruses. Chapter 14 Eukaryotes and Chapter 16 The Human Animal: Maintenance of Internal Environment and Chapter 17 The Human Animal: Coordination and Chapter 20 Behavior Selection and Survival ( 10 days) Describe various animal behaviors. Name and describe the different systems (skeleton, muscles, circulatory, respiratory, digestive, urinary, endocrine, nervous, reproductive, immune). ACT QUALITY-CORE EXAMINATION FINAL EXAMINATION SEMESTER 2