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FL.LAFS.1112.RST.READING STANDARDS FOR LITERACY IN SCIENCE AND TECHNICAL SUBJECTS 6-12
READING STANDARDS FOR LITERACY IN SCIENCE AND TECHNICAL SUBJECTS 6-12
LAFS.1112.RST.2. Craft and Structure LAFS.1112.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 11–12 texts and topics.
FL.SC.912.E.Earth and Space Science
SC.912.E.5. Earth in Space and Time - The origin and eventual fate of the Universe still remains one of the greatest questions in science. Gravity and energy influence the development and life cycles of galaxies, including our own Milky Way Galaxy, stars, the planeta SC.912.E.5.1. Cite evidence used to develop and verify the scientific theory of the Big Bang (also known as the Big Bang Theory) of the origin of the universe.
SC.912.E.5.2. Identify patterns in the organization and distribution of matter in the universe and the forces that determine them.
SC.912.E.5.3. Describe and predict how the initial mass of a star determines its evolution.
SC.912.E.5.4. Explain the physical properties of the Sun and its dynamic nature and connect them to conditions and events on Earth.
SC.912.E.5.5. Explain the formation of planetary systems based on our knowledge of our Solar System and apply this knowledge to newly discovered planetary systems.
SC.912.E.5.6. Develop logical connections through physical principles, including Kepler's and Newton's Laws about the relationships and the effects of Earth, Moon, and Sun on each other.
SC.912.E.6. Earth Structures - The scientific theory of plate tectonics provides the framework for much of modern geology. Over geologic time, internal and external sources of energy have continuously altered the features of Earth by means of both constructive and de SC.912.E.6.1. Describe and differentiate the layers of Earth and the interactions among them.
SC.912.E.6.2. Connect surface features to surface processes that are responsible for their formation.
SC.912.E.6.3. Analyze the scientific theory of plate tectonics and identify related major processes and features as a result of moving plates.
SC.912.E.6.4. Analyze how specific geologic processes and features are expressed in Florida and elsewhere.
SC.912.E.7. Earth Systems and Patterns - The scientific theory of the evolution of Earth states that changes in our planet are driven by the flow of energy and the cycling of matter through dynamic interactions among the atmosphere, hydrosphere, cryosphere, geosphere SC.912.E.7.1. Analyze the movement of matter and energy through the different biogeochemical cycles, including water and carbon.
SC.912.E.7.2. Analyze the causes of the various kinds of surface and deep water motion within the oceans and their impacts on the transfer of energy between the poles and the equator. Quiz, Flash Cards, Worksheet, Game Oceans
SC.912.E.7.3. Differentiate and describe the various interactions among Earth systems, including: atmosphere, hydrosphere, cryosphere, geosphere, and biosphere. Quiz, Flash Cards, Worksheet, Game Oceans
SC.912.E.7.4. Summarize the conditions that contribute to the climate of a geographic area, including the relationships to lakes and oceans. Quiz, Flash Cards, Worksheet, Game Climate Quiz, Flash Cards, Worksheet, Game Oceans
SC.912.E.7.5. Predict future weather conditions based on present observations and conceptual models and recognize limitations and uncertainties of such predictions.
SC.912.E.7.6. Relate the formation of severe weather to the various physical factors.
SC.912.E.7.7. Identify, analyze, and relate the internal (Earth system) and external (astronomical) conditions that contribute to global climate change. Quiz, Flash Cards, Worksheet, Game Climate
SC.912.E.7.9. Cite evidence that the ocean has had a significant influence on climate change by absorbing, storing, and moving heat, carbon, and water. Quiz, Flash Cards, Worksheet, Game Oceans
SC.912.L.14. Organization and Development of Living Organisms - A. Cells have characteristic structures and functions that make them distinctive. B. Processes in a cell can be classified broadly as growth, maintenance, reproduction, and homeostasis. C. Life can be org SC.912.L.14.1. Describe the scientific theory of cells (cell theory) and relate the history of its discovery to the process of science.
SC.912.L.14.11. Classify and state the defining characteristics of epithelial tissue, connective tissue, muscle tissue, and nervous tissue.
SC.912.L.14.13. Distinguish between bones of the axial skeleton and the appendicular skeleton.
SC.912.L.14.14. Identify the major bones of the axial and appendicular skeleton.
SC.912.L.14.15. Identify major markings (such as foramina, fossae, tubercles, etc.) on a skeleton. Explain why these markings are important.
SC.912.L.14.16. Describe the anatomy and histology, including ultra structure, of muscle tissue.
SC.912.L.14.2. Relate structure to function for the components of plant and animal cells. Explain the role of cell membranes as a highly selective barrier (passive and active transport).
SC.912.L.14.20. Identify the major muscles of the human on a model or diagram.
SC.912.L.14.21. Describe the anatomy, histology, and physiology of the central and peripheral nervous systems and name the major divisions of the nervous system.
SC.912.L.14.29. Define the terms endocrine and exocrine.
SC.912.L.14.3. Compare and contrast the general structures of plant and animal cells. Compare and contrast the general structures of prokaryotic and eukaryotic cells.
SC.912.L.14.30. Compare endocrine and neural controls of physiology.
SC.912.L.14.32. Describe the anatomy and physiology of the endocrine system.
SC.912.L.14.33. Describe the basic anatomy and physiology of the reproductive system.
SC.912.L.14.36. Describe the factors affecting blood flow through the cardiovascular system.
SC.912.L.14.4. Compare and contrast structure and function of various types of microscopes.
SC.912.L.14.40. Describe the histology of the major arteries and veins of systemic, pulmonary, hepatic portal, and coronary circulation.
SC.912.L.14.43. Describe the histology of the respiratory system.
SC.912.L.14.44. Describe the physiology of the respiratory system including the mechanisms of ventilation, gas exchange, gas transport and the mechanisms that control the rate of ventilation.
SC.912.L.14.45. Describe the histology of the alimentary canal and its associated accessory organs.
SC.912.L.14.46. Describe the physiology of the digestive system, including mechanical digestion, chemical digestion, absorption and the neural and hormonal mechanisms of control.
SC.912.L.14.52. Explain the basic functions of the human immune system, including specific and nonspecific immune response, vaccines, and antibiotics.
SC.912.L.14.53. Discuss basic classification and characteristics of plants. Identify bryophytes, pteridophytes, gymnosperms, and angiosperms.
SC.912.L.14.6. Explain the significance of genetic factors, environmental factors, and pathogenic agents to health from the perspectives of both individual and public health.
SC.912.L.14.7. Relate the structure of each of the major plant organs and tissues to physiological processes.
SC.912.L.14.9. Relate the major structure of fungi to their functions.
SC.912.L.15. Diversity and Evolution of Living Organisms - A. The scientific theory of evolution is the fundamental concept underlying all of biology. B. The scientific theory of evolution is supported by multiple forms of scientific evidence. C. Organisms are classif SC.912.L.15.1. Explain how the scientific theory of evolution is supported by the fossil record, comparative anatomy, comparative embryology, biogeography, molecular biology, and observed evolutionary change.
SC.912.L.15.13. Describe the conditions required for natural selection, including: overproduction of offspring, inherited variation, and the struggle to survive, which result in differential reproductive success.
SC.912.L.15.15. Describe how mutation and genetic recombination increase genetic variation.
SC.912.L.15.5. Explain the reasons for changes in how organisms are classified.
SC.912.L.15.6. Discuss distinguishing characteristics of the domains and kingdoms of living organisms.
SC.912.L.15.7. Discuss distinguishing characteristics of vertebrate and representative invertebrate phyla, and chordate classes using typical examples.
SC.912.L.15.8. Describe the scientific explanations of the origin of life on Earth.
SC.912.L.16. Heredity and Reproduction - A. DNA stores and transmits genetic information. Genes are sets of instructions encoded in the structure of DNA. B. Genetic information is passed from generation to generation by DNA in all organisms and accounts for similariti SC.912.L.16.1. Use Mendel's laws of segregation and independent assortment to analyze patterns of inheritance.
SC.912.L.16.11. Discuss the technologies associated with forensic medicine and DNA identification, including restriction fragment length polymorphism (RFLP) analysis.
SC.912.L.16.13. Describe the basic anatomy and physiology of the human reproductive system. Describe the process of human development from fertilization to birth and major changes that occur in each trimester of pregnancy.
SC.912.L.16.14. Describe the cell cycle, including the process of mitosis. Explain the role of mitosis in the formation of new cells and its importance in maintaining chromosome number during asexual reproduction.
SC.912.L.16.15. Compare and contrast binary fission and mitotic cell division.
SC.912.L.16.16. Describe the process of meiosis, including independent assortment and crossing over. Explain how reduction division results in the formation of haploid gametes or spores.
SC.912.L.16.17. Compare and contrast mitosis and meiosis and relate to the processes of sexual and asexual reproduction and their consequences for genetic variation.
SC.912.L.16.2. Discuss observed inheritance patterns caused by various modes of inheritance, including dominant, recessive, codominant, sex-linked, polygenic, and multiple alleles.
SC.912.L.16.3. Describe the basic process of DNA replication and how it relates to the transmission and conservation of the genetic information.
SC.912.L.16.4. Explain how mutations in the DNA sequence may or may not result in phenotypic change. Explain how mutations in gametes may result in phenotypic changes in offspring.
SC.912.L.16.5. Explain the basic processes of transcription and translation, and how they result in the expression of genes.
SC.912.L.16.6. Discuss the mechanisms for regulation of gene expression in prokaryotes and eukaryotes at transcription and translation level.
SC.912.L.16.7. Describe how viruses and bacteria transfer genetic material between cells and the role of this process in biotechnology.
SC.912.L.16.9. Explain how and why the genetic code is universal and is common to almost all organisms.
SC.912.L.17. Interdependence - A. The distribution and abundance of organisms is determined by the interactions between organisms, and between organisms and the non-living environment. B. Energy and nutrients move within and between biotic and abiotic components of ec SC.912.L.17.10. Diagram and explain the biogeochemical cycles of an ecosystem, including water, carbon, and nitrogen cycle.
SC.912.L.17.2. Explain the general distribution of life in aquatic systems as a function of chemistry, geography, light, depth, salinity, and temperature. Quiz, Flash Cards, Worksheet, Game Oceans
SC.912.L.17.3. Discuss how various oceanic and freshwater processes, such as currents, tides, and waves, affect the abundance of aquatic organisms. Quiz, Flash Cards, Worksheet, Game Oceans
SC.912.L.17.6. Compare and contrast the relationships among organisms, including predation, parasitism, competition, commensalism, and mutualism.
SC.912.L.17.7. Characterize the biotic and abiotic components that define freshwater systems, marine systems and terrestrial systems. Quiz, Flash Cards, Worksheet, Game Oceans
SC.912.L.17.9. Use a food web to identify and distinguish producers, consumers, and decomposers. Explain the pathway of energy transfer through trophic levels and the reduction of available energy at successive trophic levels.
SC.912.L.18. Matter and Energy Transformations - A. All living things are composed of four basic categories of macromolecules and share the same basic needs for life. B. Living organisms acquire the energy they need for life processes through various metabolic pathway SC.912.L.18.1. Describe the basic molecular structures and primary functions of the four major categories of biological macromolecules.
SC.912.L.18.3. Describe the structures of fatty acids, triglycerides, phospholipids, and steroids. Explain the functions of lipids in living organisms. Identify some reactions that fatty acids undergo. Relate the structure and function of cell membranes.
SC.912.L.18.6. Discuss the role of anaerobic respiration in living things and in human society.
SC.912.L.18.7. Identify the reactants, products, and basic functions of photosynthesis.
SC.912.L.18.8. Identify the reactants, products, and basic functions of aerobic and anaerobic cellular respiration.
SC.912.L.18.9. Explain the interrelated nature of photosynthesis and cellular respiration.
FL.SC.912.N.Nature of Science
SC.912.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, SC.912.N.1.1. Define a problem based on a specific body of knowledge, for example: biology, chemistry, physics, and earth/space science, and do the following: SC.912.N.1.1.6. Use tools to gather, analyze, and interpret data (this includes the use of measurement in metric and other systems, and also the generation and interpretation of graphical representations of data, including data tables and graphs)
SC.912.N.1.2. Describe and explain what characterizes science and its methods.
SC.912.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 kno SC.912.N.2.1. Identify what is science, what clearly is not science, and what superficially resembles science (but fails to meet the criteria for science).
SC.912.P.10. Energy - A. Energy is involved in all physical and chemical processes. It is conserved, and can be transformed from one form to another and into work. At the atomic and nuclear levels energy is not continuous but exists in discrete amounts. Energy and mas SC.912.P.10.1. Differentiate among the various forms of energy and recognize that they can be transformed from one form to others. Quiz, Flash Cards, Worksheet, Game Heat
SC.912.P.10.10. Compare the magnitude and range of the four fundamental forces (gravitational, electromagnetic, weak nuclear, strong nuclear).
SC.912.P.10.11. Explain and compare nuclear reactions (radioactive decay, fission and fusion), the energy changes associated with them and their associated safety issues.
SC.912.P.10.12. Differentiate between chemical and nuclear reactions.
SC.912.P.10.13. Relate the configuration of static charges to the electric field, electric force, electric potential, and electric potential energy.
SC.912.P.10.14. Differentiate among conductors, semiconductors, and insulators.
SC.912.P.10.15. Investigate and explain the relationships among current, voltage, resistance, and power.
SC.912.P.10.16. Explain the relationship between moving charges and magnetic fields, as well as changing magnetic fields and electric fields, and their application to modern technologies.
SC.912.P.10.18. Explore the theory of electromagnetism by comparing and contrasting the different parts of the electromagnetic spectrum in terms of wavelength, frequency, and energy, and relate them to phenomena and applications.
SC.912.P.10.19. Explain that all objects emit and absorb electromagnetic radiation and distinguish between objects that are blackbody radiators and those that are not.
SC.912.P.10.20. Describe the measurable properties of waves and explain the relationships among them and how these properties change when the wave moves from one medium to another.
SC.912.P.10.21. Qualitatively describe the shift in frequency in sound or electromagnetic waves due to the relative motion of a source or a receiver. Quiz, Flash Cards, Worksheet, Game Sound
SC.912.P.10.3. Compare and contrast work and power qualitatively and quantitatively.
SC.912.P.10.4. Describe heat as the energy transferred by convection, conduction, and radiation, and explain the connection of heat to change in temperature or states of matter. Quiz, Flash Cards, Worksheet, Game Heat
SC.912.P.10.5. Relate temperature to the average molecular kinetic energy. Quiz, Flash Cards, Worksheet, Game Gases Quiz, Flash Cards, Worksheet, Game Heat
SC.912.P.10.6. Create and interpret potential energy diagrams, for example: chemical reactions, orbits around a central body, motion of a pendulum. Quiz, Flash Cards, Worksheet, Game Heat
SC.912.P.10.7. Distinguish between endothermic and exothermic chemical processes.
SC.912.P.10.9. Describe the quantization of energy at the atomic level.
SC.912.P.12. Motion - A. Motion can be measured and described qualitatively and quantitatively. Net forces create a change in motion. When objects travel at speeds comparable to the speed of light, Einstein's special theory of relativity applies. B. Momentum is conser SC.912.P.12.1. Distinguish between scalar and vector quantities and assess which should be used to describe an event.
SC.912.P.12.10. Interpret the behavior of ideal gases in terms of kinetic molecular theory.
SC.912.P.12.11. Describe phase transitions in terms of kinetic molecular theory.
SC.912.P.12.12. Explain how various factors, such as concentration, temperature, and presence of a catalyst affect the rate of a chemical reaction.
SC.912.P.12.13. Explain the concept of dynamic equilibrium in terms of reversible processes occurring at the same rates.
SC.912.P.12.2. Analyze the motion of an object in terms of its position, velocity, and acceleration (with respect to a frame of reference) as functions of time.
SC.912.P.12.3. Interpret and apply Newton's three laws of motion.
SC.912.P.12.5. Apply the law of conservation of linear momentum to interactions, such as collisions between objects.
SC.912.P.12.7. Recognize that nothing travels faster than the speed of light in a vacuum which is the same for all observers no matter how they or the light source are moving. Quiz, Flash Cards, Worksheet, Game Light
SC.912.P.8. Matter - A. A working definition of matter is that it takes up space, has mass, and has measurable properties. Matter is comprised of atomic, subatomic, and elementary particles. B. Electrons are key to defining chemical and some physical properties, reac SC.912.P.8.1. Differentiate among the four states of matter. Quiz, Flash Cards, Worksheet, Game Heat
SC.912.P.8.10. Describe oxidation-reduction reactions in living and non-living systems.
SC.912.P.8.11. Relate acidity and basicity to hydronium and hydroxyl ion concentration and pH.
SC.912.P.8.12. Describe the properties of the carbon atom that make the diversity of carbon compounds possible.
SC.912.P.8.2. Differentiate between physical and chemical properties and physical and chemical changes of matter.
SC.912.P.8.4. Explore the scientific theory of atoms (also known as atomic theory) by describing the structure of atoms in terms of protons, neutrons and electrons, and differentiate among these particles in terms of their mass, electrical charges and locations within
SC.912.P.8.5. Relate properties of atoms and their position in the periodic table to the arrangement of their electrons.
SC.912.P.8.6. Distinguish between bonding forces holding compounds together and other attractive forces, including hydrogen bonding and Van Der Waals forces.
SC.912.P.8.7. Interpret formula representations of molecules and compounds in terms of composition and structure.
SC.912.P.8.8. Characterize types of chemical reactions, for example: redox, acid-base, synthesis, and single and double replacement reactions.