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FL.LACC.RST.68.Reading Standards for Literacy in Science and Technical Subjects
Reading Standards for Literacy in Science and Technical Subjects
Integration of Knowledge and Ideas LACC.68.RST.3.7. Integrate quantitative or technical information expressed in words in a text with a version of that information expressed visually (e.g., in a flowchart, diagram, model, graph, or table).
LACC.68.RST.3.9. Compare and contrast the information gained from experiments, simulations, video, or multimedia sources with that gained from reading a text on the same topic.
Craft and Structure LACC.68.RST.2.4. Determine the meaning of symbols, key terms, and other domain-specific words and phrases as they are used in a specific scientific or technical context relevant to grades 6-8 texts and topics.
FL.LACC.WHST.68.Writing Standards for Literacy in Science and Technical Subjects
Writing Standards for Literacy in Science and Technical Subjects
Research to Build and Present Knowledge LACC.68.WHST.3.7. Conduct short research projects to answer a question (including a self-generated question), drawing on several sources and generating additional related, focused questions that allow for multiple avenues of exploration.
Production and Distribution of Writing LACC.68.WHST.2.4. Produce clear and coherent writing in which the development, organization, and style are appropriate to task, purpose, and audience.
Text Types and Purposes LACC.68.WHST.1.2. Write informative/explanatory texts, including the narration of historical events, scientific procedures/ experiments, or technical processes. LACC.68.WHST.1.2.a. Introduce a topic clearly, previewing what is to follow; organize ideas, concepts, and information into broader categories as appropriate to achieving purpose; include formatting (e.g., headings), graphics (e.g., charts, tables), and multimedia when useful to aiding comprehension.
LACC.68.WHST.1.2.f. Provide a concluding statement or section that follows from and supports the information or explanation presented.
FL.SC.7.E.Earth and Space Science
SC.7.E.6. Earth Structures - Over geologic time, internal and external sources of energy have continuously altered the features of Earth by means of both constructive and destructive forces. All life, including human civilization, is dependent on Earth's internal and external energy and material resources. SC.7.E.6.1. Describe the layers of the solid Earth, including the lithosphere, the hot convecting mantle, and the dense metallic liquid and solid cores.
SC.7.E.6.2. Identify the patterns within the rock cycle and relate them to surface events (weathering and erosion) and sub-surface events (plate tectonics and mountain building). Quiz, Flash Cards, Worksheet, Game & Study Guide Rocks Quiz, Flash Cards, Worksheet, Game Rocks
SC.7.E.6.3. Identify current methods for measuring the age of Earth and its parts, including the law of superposition and radioactive dating. Quiz, Flash Cards, Worksheet, Game Fossils Quiz, Flash Cards, Worksheet, Game & Study Guide Fossils
SC.7.E.6.4. Explain and give examples of how physical evidence supports scientific theories that Earth has evolved over geologic time due to natural processes. Quiz, Flash Cards, Worksheet, Game Fossils Quiz, Flash Cards, Worksheet, Game & Study Guide Fossils
SC.7.E.6.5. Explore the scientific theory of plate tectonics by describing how the movement of Earth's crustal plates causes both slow and rapid changes in Earth's surface, including volcanic eruptions, earthquakes, and mountain building.
SC.7.E.6.6. Identify the impact that humans have had on Earth, such as deforestation, urbanization, desertification, erosion, air and water quality, changing the flow of water.
SC.7.E.6.7. Recognize that heat flow and movement of material within Earth causes earthquakes and volcanic eruptions, and creates mountains and ocean basins.
SC.7.L.15. Diversity and Evolution of Living Organisms - A. The scientific theory of evolution is the organizing principle of life science. B. The scientific theory of evolution is supported by multiple forms of evidence. C. Natural Selection is a primary mechanism leading to change over time in organisms. SC.7.L.15.1. Recognize that fossil evidence is consistent with the scientific theory of evolution that living things evolved from earlier species.
SC.7.L.15.2. Explore the scientific theory of evolution by recognizing and explaining ways in which genetic variation and environmental factors contribute to evolution by natural selection and diversity of organisms.
SC.7.L.15.3. Explore the scientific theory of evolution by relating how the inability of a species to adapt within a changing environment may contribute to the extinction of that species.
SC.7.L.16. Heredity and Reproduction - A. Reproduction is characteristic of living things and is essential for the survival of species. B. Genetic information is passed from generation to generation by DNA; DNA controls the traits of an organism. C. Changes in the DNA of an organism can cause changes in traits, and manipulation of DNA in organisms has led to genetically modified organisms. SC.7.L.16.1. Understand and explain that every organism requires a set of instructions that specifies its traits, that this hereditary information (DNA) contains genes located in the chromosomes of each cell, and that heredity is the passage of these instructions from one generation to another.
SC.7.L.16.2. Determine the probabilities for genotype and phenotype combinations using Punnett Squares and pedigrees.
SC.7.L.16.3. Compare and contrast the general processes of sexual reproduction requiring meiosis and asexual reproduction requiring mitosis.
SC.7.L.16.4. Recognize and explore the impact of biotechnology (cloning, genetic engineering, artificial selection) on the individual, society and the environment.
SC.7.L.17. Interdependence - A. Plants and animals, including humans, interact with and depend upon each other and their environment to satisfy their basic needs. B. Both human activities and natural events can have major impacts on the environment. C. Energy flows from the sun through producers to consumers. SC.7.L.17.1. Explain and illustrate the roles of and relationships among producers, consumers, and decomposers in the process of energy transfer in a food web.
SC.7.L.17.2. Compare and contrast the relationships among organisms such as mutualism, predation, parasitism, competition, and commensalism.
FL.SC.7.N.Nature of Science
SC.7.N.1. The Practice of Science - A: Scientific inquiry is a multifaceted activity; The processes of science include the formulation of scientifically investigable questions, construction of investigations into those questions, the collection of appropriate data, the evaluation of the meaning of those data, and the communication of this evaluation. B: The processes of science frequently do not correspond to the traditional portrayal of ''the scientific method.''C: Scientific argumentation is a necessary part of scientific inquiry and plays an important role in the generation and validation of scientific knowledge. D: Scientific knowledge is based on observation and inference; it is important to recognize that these are very different things. Not only does science require creativity in its methods and processes, but also in its questions and explanations. SC.7.N.1.1. Define a problem from the seventh grade curriculum, use appropriate reference materials to support scientific understanding, plan and carry out scientific investigation of various types, such as systematic observations or experiments, identify variables, collect and organize data, interpret data in charts, tables, and graphics, analyze information, make predictions, and defend conclusions.
SC.7.N.1.3. Distinguish between an experiment (which must involve the identification and control of variables) and other forms of scientific investigation and explain that not all scientific knowledge is derived from experimentation.
SC.7.N.1.4. Identify test variables (independent variables) and outcome variables (dependent variables) in an experiment.
SC.7.N.1.5. Describe the methods used in the pursuit of a scientific explanation as seen in different fields of science such as biology, geology, and physics.
SC.7.N.1.6. Explain that empirical evidence is the cumulative body of observations of a natural phenomenon on which scientific explanations are based.
SC.7.N.2. The Characteristics of Scientific Knowledge - A: Scientific knowledge is based on empirical evidence, and is appropriate for understanding the natural world, but it provides only a limited understanding of the supernatural, aesthetic, or other ways of knowing, such as art, philosophy, or religion. B: Scientific knowledge is durable and robust, but open to change. C: Because science is based on empirical evidence it strives for objectivity, but as it is a human endeavor the processes, methods, and knowledge of science include subjectivity, as well as creativity and discovery. SC.7.N.2.1. Identify an instance from the history of science in which scientific knowledge has changed when new evidence or new interpretations are encountered.
SC.7.N.3. The Role of Theories, Laws, Hypotheses, and Models - The terms that describe examples of scientific knowledge, for example; ''theory,'' ''law,'' ''hypothesis,'' and ''model'' have very specific meanings and functions within science. SC.7.N.3.1. Recognize and explain the difference between theories and laws and give several examples of scientific theories and the evidence that supports them.
SC.7.N.3.2. Identify the benefits and limitations of the use of scientific models.
SC.7.P.10. Forms of Energy - A. Energy is involved in all physical processes and is a unifying concept in many areas of science. B. Energy exists in many forms and has the ability to do work or cause a change. SC.7.P.10.1. Illustrate that the sun's energy arrives as radiation with a wide range of wavelengths, including infrared, visible, and ultraviolet, and that white light is made up of a spectrum of many different colors.
SC.7.P.10.2. Observe and explain that light can be reflected, refracted, and/or absorbed.
SC.7.P.10.3. Recognize that light waves, sound waves, and other waves move at different speeds in different materials.
SC.7.P.11. Energy Transfer and Transformations - A. Waves involve a transfer of energy without a transfer of matter. B. Water and sound waves transfer energy through a material. C. Light waves can travel through a vacuum and through matter. D. The Law of Conservation of Energy: Energy is conserved as it transfers from one object to another and from one form to another. SC.7.P.11.1. Recognize that adding heat to or removing heat from a system may result in a temperature change and possibly a change of state.
SC.7.P.11.2. Investigate and describe the transformation of energy from one form to another.
SC.7.P.11.3. Cite evidence to explain that energy cannot be created nor destroyed, only changed from one form to another.
SC.7.P.11.4. Observe and describe that heat flows in predictable ways, moving from warmer objects to cooler ones until they reach the same temperature.