Early Elementary

Late Elementary

Middle/Junior High School

Early High School

Late High School

11.A.1a  Describe an observed event.

11.A.2a  Formulate questions on a specific science topic and choose the steps needed to answer the questions.

11.A.3a  Formulate hypotheses that can be tested by collecting data.

11.A.4a  Formulate hypotheses referencing prior research and knowledge.

11.A.5a  Formulate hypotheses referencing prior research and knowledge.

11.A.1b  Develop questions on scientific topics.

11.A.2b  Collect data for investigations using scientific process skills including observing, estimating and measuring.

11.A.3b  Conduct scientific experiments that control all but one variable.

11.A.4b  Conduct controlled experiments or simulations to test hypotheses.

11.A.5b  Design procedures to test the selected hypotheses.

11.A.1c  Collect data for investigations using measuring instruments and technologies.

11.A.2c  Construct charts and visualizations to display data.

11.A.3c  Collect and record data accurately using consistent measuring and recording techniques and media.

11.A.4c  Collect, organize and analyze data accurately and precisely.

11.A.5c  Conduct systematic controlled experi­ments to test the selected hypotheses.

11.A.1d  Record and store data using available technologies.

11.A.2d  Use data to produce reasonable explanations.

11.A.3d  Explain the existence of unexpected results in a data set.

11.A.4d  Apply statistical methods to the data to reach and support conclusions.

11.A.5d  Apply statistical methods to make predictions and to test the accuracy of results.

11.A.1e  Arrange data into logical patterns and describe the patterns.

11.A.2e  Report and display the results of individual and group investigations.

11.A.3e  Use data manipulation tools and quantitative (e.g., mean, mode, simple equa­tions) and representational methods (e.g., simulations, image processing) to analyze measurements.

11.A.4e  Formulate alternative hypotheses to explain unexpected results.

11.A.5e  Report, display and defend the results of investigations to audiences that may include professionals and technical experts.

11.A.1f  Compare observations of individual and group results.

11.A.3f  Interpret and represent results of analysis to produce findings.

11.A.4f  Using available technology, report, display and defend to an audience conclusions drawn from investigations.

11.A.3g  Report and display the process and results of a scientific investigation.

Early Elementary

Late Elementary

Middle/Junior High School

Early High School

Late High School

11.B.1a  Given a simple design problem, formulate possible solutions.

11.B.2a  Identify a design problem and propose possible solutions.

11.B.3a  Identify an actual design problem and establish criteria for determining the success of a solution.

11.B.4a  Identify a technological design problem inherent in a commonly used product.

11.B.5a  Identify a design problem that has practical applications and propose possible solutions, considering such constraints as available tools, materials, time and costs.

11.B.1b  Design a device that will be useful in solving the problem.

11.B.2b  Develop a plan, design and procedure to address the problem identifying constraints (e.g., time, materials, technology).

11.B.3b  Sketch, propose and compare design solutions to the problem considering available materials, tools, cost effectiveness and safety.

11.B.4b  Propose and compare different solution designs to the design problem based upon given constraints including available tools, materials and time. 

11.B.5b  Select criteria for a successful design solution to the identified problem.

11.B.1c  Build the device using the materials and tools provided.

11.B.2c  Build a prototype of the design using available tools and materials.

11.B.3c  Select the most appropriate design and build a prototype or simulation.

11.B.4c  Develop working visualizations of the proposed solution designs (e.g., blueprints, schematics, flowcharts, cad-cam, animations).

11.B.5c  Build and test different models or simulations of the design solution using suitable materials, tools and technology.

11.B.1d  Test the device and record results using given instruments, techniques and measure­ment methods.

11.B.2d  Test the prototype using suitable instruments, techniques and quantitative measure­ments to record data.

11.B.3d  Test the prototype using available materials, instruments and technology and record the data.

11.B.4d  Determine the criteria upon which the designs will be judged, identify advantages and disadvantages of the designs and select the most promising design.

11.B.5d  Choose a model and refine its design based on the test results.

11.B.1e  Report the design of the device, the test process and the results in solving a given problem.

11.B.2e  Assess test results and the effective­ness of the design using given criteria and noting possible sources of error.

11.B.3e  Evaluate the test results based on established criteria, note sources of error and recommend improvements.

11.B.4e  Develop and test a prototype or simulation of the solution design using available materials, instruments and technology.

11.B.5e  Apply established criteria to evaluate the suitability, acceptability, benefits, draw­backs and consequences for the tested design solution and recommend modifications and refinements.

11.B.2f  Report test design, test process and test results.

11.B.3f  Using available technology, report the relative success of the design based on the test results and criteria.

11.B.4f  Evaluate the test results based on established criteria, note sources of error and recommend improvements.

11.B.5f  Using available technology, prepare and present findings of the tested design solution to an audience that may include professional and technical experts.

11.B.4g  Using available technology, report to an audience the relative success of the design based on the test results and criteria.

Early Elementary

Late Elementary

Middle/Junior High School

Early High School

Late High School

12.A.1a  Identify and describe the component parts of living things (e.g., birds have feathers; people have bones, blood, hair, skin) and their major functions.

12.A.2a  Describe simple life cycles of plants and animals and the similarities and differences in their offspring.

12.A.3a  Explain how cells function as €œbuilding blocks€ of organisms and describe the require­ments for cells to live.

12.A.4a  Explain how genetic combinations produce visible effects and variations among physical features and cellular functions of organisms.

12.A.5a  Explain changes within cells and organisms in response to stimuli and changing environmental conditions (e.g., homeostasis, dormancy).

12.A.1b  Categorize living organisms using a variety of observable features (e.g., size, color, shape, backbone).

12.A.2b  Categorize features as either inherited or learned (e.g., flower color or eye color is inherited; language is learned).

12.A.3b  Compare characteristics of organisms produced from a single parent with those of organisms produced by two parents.

12.A.4b  Describe the structures and organiza­tion of cells and tissues that underlie basic life functions including nutrition, respiration, cellular transport, biosynthesis and reproduction.

12.A.5b  Analyze the transmission of genetic traits, diseases and defects.

12.A.3c  Compare and contrast how different forms and structures reflect different functions (e.g., similarities and differences among animals that fly, walk or swim; structures of plant cells and animal cells).

12.A.4c  Describe processes by which organisms change over time using evidence from comparative anatomy and physiology, embryology, the fossil record, genetics and biochemistry.

Early Elementary

Late Elementary

Middle/Junior High School

Early High School

Late High School

12.B.1a  Describe and compare characteristics of living things in relationship to their environments.

12.B.2a  Describe relationships among various organisms in their environments (e.g., predator/prey, parasite/host, food chains and food webs).

12.B.3a  Identify and classify biotic and abiotic factors in an environment that affect population density, habitat and placement of organisms in an energy pyramid.

12.B.4a  Compare physical, ecological and behavioral factors that influence interactions and interdependence of organisms.

12.B.5a  Analyze and explain biodiversity issues and the causes and effects of extinction.

12.B.1b  Describe how living things depend on one another for survival.

12.B.2b  Identify physical features of plants and animals that help them live in different environments (e.g., specialized teeth for eating certain foods, thorns for protection, insulation for cold temperature).

12.B.3b  Compare and assess features of organisms for their adaptive, competitive and survival potential (e.g., appendages, reproductive rates, camouflage, defensive structures).

12.B.4b  Simulate and analyze factors that influence the size and stability of populations within ecosystems (e.g., birth rate, death rate, predation, migration patterns).

12.B.5b  Compare and predict how life forms can adapt to changes in the environment by applying concepts of change and constancy (e.g., variations within a population increase the likelihood of survival under new conditions).

Early Elementary

Late Elementary

Middle/Junior High School

Early High School

Late High School

12.C.1a  Identify and compare sources of energy (e.g., batteries, the sun).

12.C.2a  Describe and compare types of energy including light, heat, sound, electrical and mechanical.

12.C.3a  Explain interactions of energy with matter including changes of state and con­servation of mass and energy.

12.C.4a  Use kinetic theory, wave theory, quantum theory and the laws of thermo­dynamics to explain energy transformations.

12.C.5a  Analyze reactions (e.g., nuclear reactions, burning of fuel, decomposition of waste) in natural and man-made energy systems.

12.C.1b  Compare large-scale physical pro­perties of matter (e.g., size, shape, color, texture, odor).

12.C.2b  Describe and explain the proper­ties of solids, liquids and gases.

12.C.3b  Model and describe the chemical and physical characteristics of matter (e.g., atoms, molecules, elements, compounds, mixtures).

12.C.4b  Analyze and explain the atomic and nuclear structure of matter.

12.C.5b  Analyze the properties of materials (e.g., mass, boiling point, melting point, hardness) in relation to their physical and/or chemical structures.

Early Elementary

Late Elementary

Middle/Junior High School

Early High School

Late High School

12.D.1a  Identify examples of motion (e.g., moving in a straight line, vibrating, rotating).

12.D.2a  Explain constant, variable and periodic motions.

12.D.3a  Explain and demonstrate how forces affect motion (e.g., action/reaction, equilibrium conditions, free-falling objects).

12.D.4a  Explain and predict motions in inertial and accelerated frames of reference.

12.D.5a  Analyze factors that influence the relative motion of an object (e.g., friction, wind shear, cross currents, potential differences).

12.D.1b  Identify observable forces in nature (e.g., pushes, pulls, gravity, magnetism).

12.D.2b  Demonstrate and explain ways that forces cause actions and reactions (e.g., magnets attracting and repelling; objects falling, rolling and bouncing).

12.D.3b  Explain the factors that affect the gravitational forces on objects (e.g., changes in mass, distance).

12.D.4b  Describe the effects of electromagnetic and nuclear forces including atomic and molecular bonding, capacitance and nuclear reactions.

12.D.5b  Analyze the effects of gravitational, electromagnetic and nuclear forces on a physical system.

Early Elementary

Late Elementary

Middle/Junior High School

Early High School

Late High School

12.E.1a  Identify components and describe diverse features of the Earth€™s land, water and atmospheric systems.

12.E.2a  Identify and explain natural cycles of the Earth€™s land, water and atmospheric systems (e.g., rock cycle, water cycle, weather patterns).

12.E.3a  Analyze and explain large-scale dynamic forces, events and processes that affect the Earth€™s land, water and atmospheric systems (e.g., jetstream, hurricanes, plate tectonics).

12.E.4a  Explain how external and internal energy sources drive Earth processes (e.g., solar energy drives weather patterns; internal heat drives plate tectonics).

12.E.5  Analyze the processes involved in naturally occurring short-term and long-term Earth events (e.g., floods, ice ages, temperature, sea-level fluctuations).

12.E.1b  Identify and describe patterns of weather and seasonal change.

12.E.2b  Describe and explain short-term and long-term interactions of the Earths components (e.g., earthquakes, types of erosion).

12.E.3b  Describe interactions between solid earth, oceans, atmosphere and organisms that have resulted in ongoing changes of Earth (e.g., erosion, El Nino).

12.E.4b  Describe how rock sequences and fossil remains are used to interpret the age and changes in the Earth.

12.E.1c  Identify renewable and nonrenewable natural resources.

12.E.2c  Identify and classify recyclable materials.

12.E.3c  Evaluate the biodegradability of renewable and nonrenewable natural resources.

Early Elementary

Late Elementary

Middle/Junior High School

Early High School

Late High School

12.F.1a  Identify and describe characteristics of the sun, Earth and moon as familiar objects in the solar system.

12.F.2a  Identify and explain natural cycles and patterns in the solar system (e.g., order of the planets; moon phases; seasons as related to Earths tilt, ones latitude, and where Earth is in its yearly orbit around the sun).

12.F.3a  Simulate, analyze and explain the effects of gravitational force in the solar system (e.g., orbital shape and speed, tides, spherical shape of the planets and moons).

12.F.4a  Explain theories, past and present, for changes observed in the universe.

12.F.5a  Compare the processes involved in the life cycle of stars (e.g., gravitational collapse, thermonuclear fusion, nova) and evaluate the supporting evidence.

12.F.1b  Identify daily, seasonal and annual patterns related to the Earths rotation and revolution.

12.F.2b  Explain the apparent motion of the sun and stars.

12.F.3b  Describe the organization and physical characteristics of the solar system (e.g., sun, planets, satellites, asteroids, comets).

12.F.4b  Describe and compare the chemical and physical characteristics of galaxies and objects within galaxies (e.g., pulsars, nebulae, black holes, dark matter, stars).

12.F.5b  Describe the size and age of the universe and evaluate the supporting evidence (e.g., red-shift, Hubbles constant).

12.F.2c  Identify easily recognizable star patterns (e.g., the Big Dipper, constellations).

12.F.3c  Compare and contrast the sun as a star with other objects in the Milky Way Galaxy (e.g., nebulae, dust clouds, stars, black holes).

Early Elementary

Late Elementary

Middle/Junior High School

Early High School

Late High School

13.A.1a  Use basic safety practices (e.g., not tasting materials without permission, œstop/drop/roll).

13.A.2a  Demonstrate ways to avoid injury when conducting science activities (e.g., wearing goggles, fire extinguisher use).

13.A.3a  Identify and reduce potential hazards in science activities (e.g., ventilation, handling chemicals).

13.A.4a  Estimate and suggest ways to reduce the degree of risk involved in science activities.

13.A.5a  Design procedures and policies to eliminate or reduce risk in potentially hazardous science activities.

13.A.1b  Explain why similar results are expected when procedures are done the same way.

13.A.2b  Explain why similar investigations may not produce similar results.

13.A.3b  Analyze historical and contemporary cases in which the work of science has been affected by both valid and biased scientific practices.

13.A.4b  Assess the validity of scientific data by analyzing the results, sample set, sample size, similar previous experimentation, possible misrepresentation of data presented and potential sources of error.

13.A.5b  Explain criteria that scientists use to evaluate the validity of scientific claims and theories.

13.A.1c  Explain how knowledge can be gained by careful observation.

13.A.2c  Explain why keeping accurate and detailed records is important.

13.A.3c  Explain what is similar and different about observational and experimental investigations.

13.A.4c  Describe how scientific knowledge, explanations and technological designs may change with new information over time (e.g., the understanding of DNA, the design of computers).

13.A.5c  Explain the strengths, weaknesses and uses of research methodologies including observational studies, controlled laboratory experiments, computer modeling and statistical studies.

13.A.4d  Explain how peer review helps to assure the accurate use of data and improves the scientific process.

13.A.5d  Explain, using a practical example (e.g., cold fusion), why experimental replication and peer review are essential to scientific claims.

Early Elementary

Late Elementary

Middle/Junior High School

Early High School

Late High School

13.B.1a  Explain the uses of common scientific instruments (e.g., ruler, thermometer, balance, probe, computer).

13.B.2a  Explain how technology is used in science for a variety of purposes (e.g., sample collection, storage and treatment; measure­ment; data collection, storage and retrieval; communication of information).

13.B.3a  Identify and explain ways that scientific knowledge and economics drive technological development.

13.B.4a  Compare and contrast scientific inquiry and technological design as pure and applied sciences.

13.B.5a  Analyze challenges created by inter­national competition for increases in scientific knowledge and technological capabilities (e.g., patent issues, industrial espionage, technology obsolescence).

13.B.1b  Explain how using measuring tools improves the accuracy of estimates.

13.B.2b  Describe the effects on society of scientific and technological innovations (e.g., antibiotics, steam engine, digital computer).

13.B.3b  Identify important contributions to science and technology that have been made by individuals and groups from various cultures.

13.B.4b  Analyze a particular occupation to identify decisions that may be influenced by a knowledge of science.

13.B.5b  Analyze and describe the processes and effects of scientific and technological breakthroughs.

13.B.1c  Describe contributions men and women have made to science and technology.

13.B.2c  Identify and explain ways that science and technology influence the lives and careers of people.

13.B.3c  Describe how occupations use scientific and technological knowledge and skills.

13.B.4c  Analyze ways that resource manage­ment and technology can be used to accommo­date population trends.

13.B.5c  Design and conduct an environmental impact study, analyze findings and justify recommendations.

13.B.1d  Identify and describe ways that science and technology affect peoples everyday lives (e.g., transportation, medicine, agriculture, sanitation, communication occupations).

13.B.2d  Compare the relative effectiveness of reducing, reusing and recycling in actual situations.

13.B.3d  Analyze the interaction of resource acquisition, technological development and ecosystem impact (e.g., diamond, coal or gold mining; deforestation).

13.B.4d  Analyze local examples of resource use, technology use or conservation programs; document findings; and make recommenda­tions for improvements.

13.B.5d  Analyze the costs, benefits and effects of scientific and technological policies at the local, state, national and global levels (e.g., genetic research, Internet access).

13.B.1e  Demonstrate ways to reduce, reuse and recycle materials.

13.B.2e  Identify and explain ways that technology changes ecosystems (e.g., dams, highways, buildings, communication networks, power plants).

13.B.3e  Identify advantages and disadvantages of natural resource conservation and manage­ment programs.

13.B.4e  Evaluate claims derived from pur­ported scientific studies used in advertising and marketing strategies.

13.B.5e  Assess how scientific and techno­logical progress has affected other fields of study, careers and job markets and aspects of everyday life.

13.B.2f  Analyze how specific personal and societal choices that humans make affect local, regional and global ecosystems (e.g., lawn and garden care, mass transit).

13.B.3f  Apply classroom-developed criteria to determine the effects of policies on local science and technology issues (e.g., energy consump­tion,  landfills, water quality).