LAB-AIDS CORRELATION TO ALABAMA SCIENCE COURSE OF STUDY GRADES 6-8 Materials from the Science Education for Public Understanding Program (SEPUP) are developed at the Lawrence Hall of Science, at the University of California, Berkeley, and distributed nationally by LAB-AIDS, Inc. SEPUP materials are supported by grants from the National Science Foundation. All other materials developed by LAB-AIDS. This correlation is intended to show selected locations in SEPUP programs that support the new Alabama Course of Study for Science. It is not an exhaustive document, other links exist that are not listed here. For more information about this correlation or our programs, call the LAB-AIDS Curriculum Division at 800-381-8003, or visit us on the web at www.sepup.com. KEY TO PROGRAMS MIDDLE LEVEL PROGRAMS SEPUP programs are available as full year courses, or separately, as megamodules, each taking 6-9 weeks to complete, as listed below. IAES = Issues and Earth Science Rocks, Minerals, and Soils (includes Plate Tectonics) Earth and Space IALS = Issues and Life Science Body Works, 1-29 Micro-life, 30-53 Our Genes Our, 54-71 Ecology and Evolution, 72-101 Tools and Ideas, 102-108 IAPS = Issues and Physical Science Water, A-1 to A-20 Materials, B-1 to B-18 Energy, C-1 to C-12 Force and Motion, D1-D19-1 -
ES-2, Investigating Energy from the Sun Light modules (3 titles), Investigating Light; Color and Spectrum; Reflection and Refraction RECOMMENDED SCOPE AND SEQUENCE 6-8 We recommend the following sequence to Alabama middle level science teachers in order to respond to the requirements of the new Alabama Science Course of Study. Grade 6 Issues and Earth Science Grade 7 Issues and Life Science Grade 8 Issues and Earth Science Of course, many possible sequences are available if a local, integrated course of study is desired. Each of the courses contain a 10 unit sequence on how scientists work (IAES- Rocks and Minerals, SALI-My Body and Me, IEY-Water) and it is suggested that these units be distributed over each grade level and serve as the introduction to the year. Please contact LAB-AIDS at 800.381.8003 with additional questions. - 2 -
Sixth Grade EARTH AND SPACE SCIENCE 1. Identify global patterns of atmospheric movement, including El Niño, the Gulf Stream, the jet stream, the Coriolis effect, and global winds that influence local weather. Predicting local weather and weather patterns Describing the function of instruments and technology used to investigate Earth s weather, including barometers, thermometers, wind socks, weather vanes, satellites, radar, weather balloons, and rain gauges Using lines of latitude and longitude to locate areas of specific weather events Interpreting weather data through observations collected over time 2. Describe factors that cause changes to Earth s surface over time. Comparing constructive and destructive natural processes and their effects on land formations Distinguishing rock strata by geologic composition 3. Describe water and carbon biogeochemical cycles and their effects on Earth., Rocks, Minerals, and Soils 4. Explain the plate tectonic theory. Describing types of volcanoes and faults Determining energy release through seismographic data 5. Describe layers of the oceanic hydrosphere, including the pelagic zone, benthic zone, abyssal zone, and intertidal zone. 6. Describe regions of the oceanic 49, 61 56, 61 49, 61 13-18 31 31, 34, 54 38-40 38-40, 45 42-44 - 3 -
lithosphere, including the continental shelf, continental slope, and abyssal plain. 7. Describe Earth s biomes. Weather & (North America only) Identifying geographic factors that cause diversity in flora and fauna, including elevation, location, and climate 8. Describe how Earth s rotation, Earth s axial tilt, and distance from the equator cause variations in the heating and cooling of various locations on Earth. 50 50 Earth and Space 66, 68-69 9. Identify the moon s phases. Earth and Space 70-72 Describing lunar and solar eclipses Earth and Space 70-72 Relating effects of the moon s positions on oceanic tides 10. Describe components of the universe and their relationships to each other, including stars, planets and their moons, solar systems, and galaxies. Identifying the impact of space exploration on innovations in technology Mapping seasonal changes in the locations of constellations in the night sky Earth and Space 73 Earth and Space 77-79 (solar system only) Earth and Space 75, 85 Describing the life cycle of a star 11. Describe units used to measure distance in space, including astronomical units and light years. Earth and Space 79 Seventh Grade LIFE SCIENCE 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 My Body and Me Micro-Life 12-18 38-42 - 4 -
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 Ecology 72, 73, 79 Micro-Life 43-45 Identifying the structure of a virus Micro-Life 45 2. Identify functions of organelles found in eukaryotic cells, including the nucleus, cell membrane, cell wall, mitochondria, chloroplasts, and vacuoles. Identifying components of the cell theory Identifying cells as prokaryotic or eukaryotic Listing the sequence of the mitotic cell cycle 3. Relate major tissues and organs of the skeletal, circulatory, reproductive, muscular, respiratory, nervous, and digestive systems to their functions. Arranging in order the organizational levels of the human body from the cell through organ systems 4. Describe organisms in the six-kingdom classification system by their characteristics. Recognizing genus and species as components of a scientific name Identifying the contributions of Aristotle and Linnaeus to the early history of taxonomy 5. Identify major differences between plants and animals, including internal structures, external structures, methods of locomotion, methods of reproduction, and stages of development. Describing the processes of photosynthesis and cellular respiration 6. Describe evidence of species variation due to climate, changing landforms, interspecies interaction, and genetic mutation. Micro-Life Ecology 42 82 Micro-Life 37, 40-42 Nucleate & nonnucleate, 42 Genetics 57, 63 My Body and Me 11-28 Micro-Life 42 Ecology 75 Ecology 75 Ecology 82 Ecology 81 Evolution 89-101 - 5 -
7. Describe biotic and abiotic factors in the environment. Classifying organisms as autotrophs or heterotrophs Arranging the sequence of energy flow in an ecosystem through food webs, food chains, and energy pyramids Ecology 80, 83 80-81 (producers and consumers Ecology 79-81 8. Describe the function of chromosomes. Our Genes, Our Identifying genes as parts of chromosomes that carry genetic traits 9. Identify the process of chromosome reduction in the production of sperm and egg cells during meiosis. 10. Identify differences between deoxyribonucleic acid (DNA) and ribonucleic acid (RNA). Identifying Watson and Crick as the scientists who discovered the shape of the DNA molecule Our Genes, Our Our Genes, Our 11. Identify Mendel s laws of genetics. 60 Recognizing Down s syndrome and sickle cell anemia as inherited genetic disorders Using a monohybrid Punnett square to predict the probability of traits passed from parents to offspring Our Genes, Our Our Genes, Our 63 63 63 56 (TG) 61, 62 Eighth Grade PHYSICAL SCIENCE 1. Identify steps within the scientific process. Applying process skills to interpret data from graphs, tables, and charts Identifying controls and variables in a scientific investigation Measuring dimension, volume, and mass using Système International d'unités (SI units) All SEPUP units All SEPUP units All SEPUP units All SEPUP units Identifying examples of hypotheses All SEPUP units Identifying appropriate laboratory All SEPUP units - 6 -
glassware, balances, time measuring equipment, and optical instruments used to conduct an investigation 2. Describe the atomic structure of atoms, including the location of protons, neutrons, and electrons. Identifying the charge of each subatomic particle Identifying Democritus and Dalton as contributors to the atomic theory 3. Determine the number of protons, neutrons, and electrons, and the mass of an element using the periodic table. Locating metals, nonmetals, metalloids, and noble gases on the periodic table Using data about the number of electrons in the outer shell of an atom to determine its reactivity Materials B-15 Materials B-15 Materials B-15 4. State the law of conservation of matter. Balancing chemical equations by adjusting coefficients 5. Differentiate between ionic and covalent bonds. Illustrating transfer or sharing of electrons using electron dot diagrams 6. Define solution in terms of solute and solvent. Materials B-15 Water A-3, A-16 Defining diffusion and osmosis Micro-Life 40, 41 Defining isotonic, hypertonic, and hypotonic solutions Describing acids and bases based on their hydrogen ion concentration 7. Describe states of matter based on kinetic energy of particles in matter. Explaining effects of temperature, concentration, surface area, and catalysts on the rate of chemical reactions Water A-8 to A-12 Energy C-1 Materials Energy 8. Identify Newton s three laws of motion. Force and Motion Defining terminology such as action and reaction forces, inertia, acceleration, momentum, and friction Force and Motion B-15, B-16 C-2, C-3, C-4 1-16 6, 7, 8, 13-7 -
Interpreting distance time graphs Force and Motion 9. Describe how mechanical advantages of simple machines reduce the amount of force needed for work. Describing the effect of force on pressure in fluids 10. Differentiate between potential and kinetic energy. 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. 12. Classify waves as mechanical or electromagnetic. Describing how earthquake waves, sound waves, water waves, and electromagnetic waves can be destructive or beneficial due to the transfer of energy Describing longitudinal and transverse waves Describing how waves travel through different media Relating wavelength, frequency, and amplitude to energy Describing the electromagnetic spectrum in terms of frequencies 2, 3 Energy C-1 Energy C-3, C-4, C- 7, C-9 ES-2 ES-2 2, 3 ES-2, 3 (light waves only) 18, 43, 46-8 -