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NE.SC 1:INQUIRY, THE NATURE OF SCIENCE, AND TECHNOLOGY: Students will combine scientific processes and knowledge with scientific reasoning and critical thinking to ask questions about phenomena and propose explanations based on gathered evidence.
INQUIRY, THE NATURE OF SCIENCE, AND TECHNOLOGY: Students will combine scientific processes and knowledge with scientific reasoning and critical thinking to ask questions about phenomena and propose explanations based on gathered evidence.
1.1. Abilities to do Scientific Inquiry 12.1.1. Students will design and conduct investigations that lead to the use of logic and evidence in the formulation of scientific explanations and models. Mathematics 12.1.1.l. Use appropriate mathematics in all aspects of scientific inquiry
Scientific Communication 12.1.1.k. Evaluate scientific investigations and offer revisions and new ideas as appropriate
Scientific Interpretations, Reflections, and Applications 12.1.1.g. Analyze and interpret data, synthesize ideas, formulate and evaluate models, and clarify concepts and explanations
12.1.1.h. Use results to verify or refute a hypothesis
12.1.1.i. Propose and/or evaluate possible revisions and alternate explanations
Scientific Data Collection 12.1.1.f. Represent and review collected data in a systematic, accurate, and objective manner
Scientific Tools 12.1.1.d. Select and use lab equipment and technology appropriately and accurately
Scientific Observations 12.1.1.e. Use tools and technology to make detailed qualitative and quantitative observations
Scientific Investigations 12.1.1.b. Design and conduct logical and sequential scientific investigations with repeated trials and apply findings to new investigations
Scientific Questioning 12.1.1.a. Formulate a testable hypothesis supported by prior knowledge to guide an investigation
1.2. Nature of Science 12.1.2. Students will apply the nature of scientific knowledge to their own investigations and in the evaluation of scientific explanations. Science as a Human Endeavor 12.1.2.c. Recognize that the work of science results in incremental advances, almost always building on prior knowledge, in our understanding of the world
12.1.2.d. Research and describe the difficulties experienced by scientific innovators who had to overcome commonly held beliefs of their times to reach conclusions that we now take for granted
Scientific Knowledge 12.1.2.a. Recognize that scientific explanations must be open to questions, possible modifications, and must be based upon historical and current scientific knowledge
1.3. Technology 12.1.3. Students will solve a complex design problem. Understanding of Technical Design 12.1.3.g. Explain how science advances with the introduction of new technology
NE.SC 2:PHYSICAL SCIENCE: Students will integrate and communicate the information, concepts, principles, processes, theories, and models of the Physical Sciences to make connections with the natural and engineered world.
PHYSICAL SCIENCE: Students will integrate and communicate the information, concepts, principles, processes, theories, and models of the Physical Sciences to make connections with the natural and engineered world.
2.1. Matter 12.2.1. Students will investigate and describe matter in terms of its structure, composition and conservation. Classification of Matter 12.2.1.h. Describe the organization of the periodic table of elements with respect to patterns of physical and chemical properties
Atomic Structure 12.2.1.f. Recognize the charges and relative locations of subatomic particles (neutrons, protons, electrons)
12.2.1.g. Describe properties of atoms, ions, and isotopes
Physical and Chemical Changes 12.2.1.d. Recognize a large number of chemical reactions involve the transfer of either electrons (oxidation/reduction) or hydrogen ions (acid/base) between reacting ions, molecules, or atoms
12.2.1.e. Identify factors affecting rates of chemical reactions (temperature, particle size, surface area)
States of Matter 12.2.1.b. Describe the energy transfer associated with phase changes between solids, liquids, and gasses
12.2.1.c. Describe the three normal states of matter (solid, liquid, gas) in terms of energy, particle arrangement, particle motion, and strength of bond between molecules
Properties and Structure of Matter 12.2.1.a. Recognize bonding occurs when outer electrons are transferred (ionic) or shared (covalent)
2.2. Force and Motion 12.2.2. Students will investigate and describe the nature of field forces and their interactions with matter. Universal Forces 12.2.2.f. Describe gravity as a force that each mass exerts on another mass, which is proportional to the masses and the distance between them
Forces/Newton’s 2nd law 12.2.2.c. Make predictions based on relationships among net force, mass, and acceleration (Newton’s 2nd law)
Inertia/Newton’s 1st law 12.2.2.b. Describe how the law of inertia (Newton’s 1st law) is evident in a real-world event
Motion 12.2.2.a. Describe motion with respect to displacement and acceleration
2.3. Energy 12.2.3. Students will describe and investigate energy systems relating to the conservation and interaction of energy and matter. Chemical Energy 12.2.3.k. Identify endothermic and exothermic reactions
Mechanical Energy 12.2.3.j. Identify that all energy can be considered to be either kinetic, potential, or energy contained by a field (e.g. electromagnetic waves) Quiz, Flash Cards, Worksheet, Game Heat
Conservation 12.2.3.i. Interpret the law of conservation of energy to make predictions for the outcome of an event
Electricity/Magnetism 12.2.3.f. Recognize that the production of electromagnetic waves is a result of changes in the motion of charges or by a changing magnetic field
12.2.3.g. Compare and contrast segments of the electromagnetic spectrum (radio, micro, infrared, visible, ultraviolet, x-rays, gamma) based on frequency and wavelength
Nuclear 12.2.3.h. Recognize that nuclear reactions (fission, fusion, radioactive decay) convert a fraction of the mass of interacting particles into energy, and this amount of energy is much greater than the energy in chemical interactions
Light 12.2.3.c. Recognize that light can behave as a wave (diffraction and interference)
Heat 12.2.3.d. Distinguish between temperature (a measure of the average kinetic energy of atomic or molecular motion) and heat (the quantity of thermal energy that transfers due to a change in temperature) Quiz, Flash Cards, Worksheet, Game Gases Quiz, Flash Cards, Worksheet, Game Heat
12.2.3.e. Compare and contrast methods of heat transfer and the interaction of heat with matter via conduction, convection, and radiation
Sound/Mechanical Waves 12.2.3.a. Describe mechanical wave properties (speed, wavelength, frequency, amplitude) and how waves travel through a medium Quiz, Flash Cards, Worksheet, Game Sound
12.2.3.b. Recognize that the energy in waves can be changed into other forms of energy
NE.SC 3:LIFE SCIENCE: Students will integrate and communicate the information, concepts, principles, processes, theories, and models of the Life Sciences to make connections with the natural and engineered world.
LIFE SCIENCE: Students will integrate and communicate the information, concepts, principles, processes, theories, and models of the Life Sciences to make connections with the natural and engineered world.
3.1. Structure and Function of Living Systems 12.3.1. Students will investigate and describe the chemical basis of the growth, development, and maintenance of cells. Behavior 12.3.1.d. Describe how an organism senses changes in its internal or external environment and responds to ensure survival
Cellular Composition of Organisms 12.3.1.b. Identify the form and function of sub-cellular structures that regulate cellular activities
12.3.1.c. Describe the cellular functions of photosynthesis, respiration, cell division, protein synthesis, transport of materials, and energy capture/release
Characteristics of Life 12.3.1.a. Identify the complex molecules (carbohydrates, lipids, proteins, nucleic acids) that make up living organisms
3.2. Heredity 12.3.2. Students will describe the molecular basis of reproduction and heredity. Reproduction 12.3.2.d. Describe that sexual reproduction results in a largely predictable, variety of possible gene combinations in the offspring of any two parents
Inherited Traits 12.3.2.a. Identify that information passed from parents to offspring is coded in DNA molecules
12.3.2.b. Describe the basic structure of DNA and its function in genetic inheritance
12.3.2.c. Recognize how mutations could help, harm, or have no effect on individual organisms
3.3. Flow of Matter and Energy in Ecosystems 12.3.3. Students will describe, on a molecular level, the cycling of matter and the flow of energy between organisms and their environment. Impact on Ecosystems 12.3.3.d. Analyze factors which may influence environmental quality
Ecosystems 12.3.3.b. Recognize that atoms and molecules cycle among living and nonliving components of the biosphere
Flow of Energy 12.3.3.a. Explain how the stability of an ecosystem is increased by biological diversity
3.4. Biodiversity 12.3.4. Students will describe the theory of biological evolution. Biological Adaptations 12.3.4.a. Identify different types of adaptations necessary for survival (morphological, physiological, behavioral)
Biological Evolution 12.3.4.b. Recognize that the concept of biological evolution is a theory which explains the consequence of the interactions of: (1) the potential for a species to increase its numbers, (2) the genetic variability of offspring due to mutation and recombination of genes, (3) a finite supply of the resources required for life, and (4) the ensuing selection by the environment of those offspring better able to survive and leave offspring
12.3.4.c. Explain how natural selection provides a scientific explanation of the fossil record and the molecular similarities among the diverse species of living organisms
12.3.4.d. Apply the theory of biological evolution to explain diversity of life over time
NE.SC 4:EARTH AND SPACE SCIENCES: Students will integrate and communicate the information, concepts, principles, processes, theories, and models of Earth and Space Sciences to make connections with the natural and engineered world.
EARTH AND SPACE SCIENCES: Students will integrate and communicate the information, concepts, principles, processes, theories, and models of Earth and Space Sciences to make connections with the natural and engineered world.
4.1. Earth in Space 12.4.1. Students will investigate and describe the known universe. Objects in the Sky and Universe 12.4.1.a. Describe the formation of the universe using the Big Bang Theory
12.4.1.b. Recognize that stars, like the Sun, transform matter into energy by nuclear reactions which leads to the formation of other elements
12.4.1.c. Describe stellar evolution
4.2. Earth Structures and Processes 12.4.2. Students will investigate the relationships among Earth’s structure, systems, and processes. Use of Earth Materials 12.4.2.c. Evaluate the impact of human activity and natural causes on Earth’s resources (groundwater, rivers, land, fossil fuels) Quiz, Flash Cards, Worksheet, Game Oceans
Earth’s Processes 12.4.2.b. Describe how heat convection in the mantle propels the plates comprising Earth’s surface across the face of the globe (plate tectonics)
Properties of Earth Materials 12.4.2.a. Recognize how Earth materials move through geochemical cycles (carbon, nitrogen, oxygen) resulting in chemical and physical changes in matter
4.3. Energy in Earth’s Systems 12.4.3. Students will investigate and describe the relationships among the sources of energy and their effects on Earth’s systems. Weather and Climate 12.4.3.d. Describe natural influences (Earth’s rotation, mountain ranges, oceans, differential heating) on global climate Quiz, Flash Cards, Worksheet, Game Climate
Energy Sources 12.4.3.a. Identify internal and external sources of heat energy in Earth’s systems
12.4.3.b. Describe how radiation, conduction, and convection transfer heat in Earth’s systems
12.4.3.c. Compare and contrast benefits of renewable and nonrenewable energy sources
4.4. Earth’s History 12.4.4. Students will explain the history and evolution of Earth. Past/Present Earth 12.4.4.b. Interpret Earth’s history by observing rock sequences, using fossils to correlate the sequences at various locations, and using data from radioactive dating methods
12.4.4.c. Compare and contrast the physical and biological differences of the early Earth with the planet we live on today