7. Identify patterns and interrelationships among producers, consumers, scavengers, and decomposers in a marine ecosystem. (Grades 9 - 12) [2005]
6. Compare size, shape, structure, and basic needs of living things. Identifying similarities of offspring and their parents (Grade: K) [2005]
4. Describe survival traits of living things, including color, shape, size, texture, and covering. Classifying plants and animals according to physical traits Examples: animals—six legs on insects, plants—green leaves on evergreen trees Identifying developmental stages of plants and animals Examples: plants—seed developing into seedling, seedling developing into tree; animals—piglet developing into pig, kid developing into goat Describing a variety of habitats and natural homes of animals (Grade: 1) [2005]
10. Identify the impact of weather on agriculture, recreation, the economy, and society. Recognizing the importance of science and technology to weather predictions (Grade: 2) [2005]
2. Identify physical and chemical changes of matter. Examples: physical—chopping wood, chemical—burning wood (Grade: 3) [2005]
1. Describe characteristics common to living things, including growth and development, reproduction, cellular organization, use of energy, exchange of gases, and response to the environment. Identifying homeostasis as the process by which an organism responds to its internal or external environment Predicting how an organism's behavior impacts the environment Identifying unicellular organisms, including bacteria and protists, by their methods of locomotion, reproduction, ingestion, excretion, and effects on other organisms Identifying the structure of a virus (Grade: 7) [2005]
4. State the law of conservation of matter. Balancing chemical equations by adjusting coefficients (Grade: 8) [2005]
8. Relate the law of conservation of energy to transformations of potential energy, kinetic energy, and thermal energy. Identifying the relationship between thermal energy and the temperature of a sample of matter Describing the flow of thermal energy between two samples of matter Explaining how thermal energy is transferred by radiation, conduction, and convection Relating simple formulas to the calculation of potential energy, kinetic energy, and work (Grades 9 - 12) [2005]
9. Differentiate between the previous five-kingdom and current six-kingdom classification systems. Sequencing taxa from most inclusive to least inclusive in the classification of living things Identifying organisms using a dichotomous key Identifying ways in which organisms from the Monera, Protista, and Fungi kingdoms are beneficial and harmful Examples: beneficial—decomposers, harmful—diseases Justifying the grouping of viruses in a category separate from living things Writing scientific names accurately by using binomial nomenclature (Grades 9 - 12) [2005]
1. Differentiate among pure substances, mixtures, elements, and compounds. Distinguishing between intensive and extensive properties of matter Contrasting properties of metals, nonmetals, and metalloids Distinguishing between homogeneous and heterogeneous forms of matter (Grades 9 - 12) [2005]
12. Describe the ecological and economic importance of plants. Examples: ecological—algae-producing oxygen, bioremediation, soil preservation; economic—food, medication, timber, fossil fuels, clothing Analyzing effects of human activity on the plant world (Grades 9 - 12) [2005]
3. Explain how weather patterns affect climate. Explaining characteristics of various weather systems, including high and low pressure areas or fronts Interpreting weather maps and symbols to predict changing weather conditions Identifying technologies used to obtain meteorological data (Grades 9 - 12) [2005]
12. Identify positive and negative effects of human activities on biodiversity. Identifying endangered and extinct species locally, regionally, and worldwide Identifying causes for species extinction locally, regionally, and worldwide (Grades 9 - 12) [2005]
9. Arrange various forms of marine life from most simple to most complex. Classifying marine organisms using binomial nomenclature Identifying characteristics of ocean-drifting organisms Examples: phytoplankton, zooplankton Identifying characteristics of marine invertebrates Examples: Protozoa, Porifera, Coelenterata, Arthropoda Identifying characteristics of marine vertebrates Examples: fishes, reptiles, birds, mammals Identifying characteristics of marine plants Examples: algae, seaweed Describing adaptations in the marine environment (Grades 9 - 12) [2005]
2. Describe factors that cause changes to EarthÌ¢€™s surface over time. Examples: earthquakes, volcanoes, weathering, erosion, glacial erosion or scouring, deposition, water flow, tornadoes, hurricanes, farming and conservation, mining and reclamation, deforestation and reforestation, waste disposal, global climate changes, greenhouse gases Comparing constructive and destructive natural processes and their effects on land formations Examples: constructive volcanic and mountain-building processes; destructiveÌ¢€”erosion by wind, water, and ice Distinguishing rock strata by geologic composition Examples: predicting relative age of strata by fossil depth, predicting occurrence of natural events by rock composition in a particular strata (Grade: 6) [2005]
3. Describe water and carbon biogeochemical cycles and their effects on Earth. (Grade: 6) [2005]
10. Describe components of the universe and their relationships to each other, including stars, planets and th
eir moons, solar systems, and galaxies. Identifying the impact of space exploration on innovations in technology Examples: MRI, microwave, satellite imagery, GPS Mapping seasonal changes in locations of constellations in the night sky Describing the life cycle of a star Example: H-R diagram (Grade: 6) [2005]
11. Explain the law of conservation of energy and its relationship to energy transformation, including chemical to electrical, chemical to heat, electrical to light, electrical to mechanical, and electrical to sound. (Grade: 8) [2005]
