Standards
Tectonic processes continually generate new ocean sea floor at ridges and destroy old sea floor at trenches. (HS.ESS1.C GBE) (secondary to MS-ESS2-3)
Generate resourceAll Earth processes are the result of energy flowing and matter cycling within and among the planet’s systems. This energy is derived from the sun and Earth’s hot interior. The energy that flows and matter that cycles produce chemical and physical changes in Earth’s materials and living organisms. (MS-ESS2-1)
Generate resourceThe planet’s systems interact over scales that range from microscopic to global in size, and they operate over fractions of a second to billions of years. These interactions have shaped Earth’s history and will determine its future. (MS-ESS2-2)
Generate resourceMaps of ancient land and water patterns, based on investigations of rocks and fossils, make clear how Earth’s plates have moved great distances, collided, and spread apart. (MS-ESS2-3)
Generate resourceVariations in density due to variations in temperature and salinity drive a global pattern of interconnected ocean currents. (MS-ESS2-6)
Generate resourceThe complex patterns of the changes and the movement of water in the atmosphere, determined by winds, landforms, and ocean temperatures and currents, are major determinants of local weather patterns. (MSESS2-5)
Generate resourceGlobal movements of water and its changes in form are propelled by sunlight and gravity. (MS-ESS2-4)
Generate resourceWater’s movements—both on the land and underground—cause weathering and erosion, which change the land’s surface features and create underground formations. (MS-ESS2-2)
Generate resourceWater continually cycles among land, ocean, and atmosphere via transpiration, evaporation, condensation and crystallization, and precipitation, as well as downhill flows on land. (MS-ESS2-4)
Generate resourceThe ocean exerts a major influence on weather and climate by absorbing energy from the sun, releasing it over time, and globally redistributing it through ocean currents. (MS-ESS2-6)
Generate resourceWeather and climate are influenced by interactions involving sunlight, the ocean, the atmosphere, ice, landforms, and living things. These interactions vary with latitude, altitude, and local and regional geography, all of which can affect oceanic and atmospheric flow patterns. (MS-ESS2-6)
Generate resourceBecause these patterns are so complex, weather can only be predicted probabilistically. (MS-ESS2-5)
Generate resourceDevelop a model to describe the cycling of Earth’s materials and the flow of energy that drives this process.
Generate resourceConstruct an explanation based on evidence for how geoscience processes have changed Earth’s surface at varying time and spatial scales.
Generate resourceAnalyze and interpret data on the distribution of fossils and rocks, continental shapes, and seafloor structures to provide evidence of the past plate motions.
Generate resourceDevelop a model to describe the cycling of water through Earth’s systems driven by energy from the sun and the force of gravity.
Generate resourceCollect data to provide evidence for how the motions and complex interactions of air masses results in changes in weather conditions.
Generate resourceDevelop and use a model to describe how unequal heating and rotation of the Earth cause patterns of atmospheric and oceanic circulation that determine regional climates.
Generate resourceHSF/Health Science Foundations
Generate resourceCross Cutting Concepts
Generate resourceScience and Engineering Practices
Generate resourceEngineering, Technology, and the Application of Science (ETS)
Generate resourceEarth and Space Science
Generate resourcePhysical Science
Generate resourceLife Science
Generate resourceAcademic Foundations in Health Science: Students will apply the academic subject matter required for proficiency within their area.
Generate resourceDetermine the difference between tissues, organs, and systems of the human body.
Generate resourceIdentify diseases and disorders which affect the human body and related biomedical therapies.
Generate resourceIdentify common diseases and disorders of the human body (i.e. influenza, heart disease, diabetes, cancer).
Generate resourceDescribe healthcare treatments that promote recovery from human diseases and disorders.
Generate resourceUse appropriate mathematical tools as they apply to the practice of healthcare.
Generate resourceConvert measurements between temperature scales, fractions and decimals and U.S. Standard and metric.
Generate resourceUse knowledge of life stages to interact effectively with patients, clients, and residents.
Generate resourceDistinguish between emotional, physical, intellectual, and social development.
Generate resourceDifferentiate between growth and development as it applies to life stages.
Generate resourceProvide examples of ways in which life stages affect an individual's needs.
Generate resourceTechnical Skills: Students will apply technical skills common to each health science career pathway, demonstrating skills and knowledge as appropriate.
Generate resourceApply diagnostic procedures for measuring and recording vital signs including the normal ranges.
Generate resourceObtain training or certification in skills necessary to function as a healthcare professional.
Generate resourceIdentify specific technical skills needed for particular healthcare careers.
Generate resourceSelect personal protective equipment (PPE) appropriate to the situation.
Generate resourceHealth Information Technology for Healthcare Applications: Students will use information technology applications required within all career specialties. They will demonstrate use as appropriate to healthcare applications.
Generate resourceList examples of health information and individually identifying information that are protected by federal privacy law.
Generate resourceIdentify possible consequences of sharing protected health information (PHI).
Generate resourceRole-play healthcare situations that require computer privacy for patient information.
Generate resourceDifferentiate between personal communication styles and business-appropriate communication styles.
Generate resourceIdentify domain name extensions of government, educational and business websites in evaluating reliability and bias of medical web-based resources.
Generate resourceDetermine types of healthcare information that must be accessed through secure network portals.
Generate resourceApply computer concepts and terminology in order to use computers and other mobile devices for tracking personal health.
Generate resourceSave, share, retrieve and organize healthcare information documents on electronic devices.
Generate resourceIdentify uses, benefits and drawbacks of spell-check and other editing tools available in word processing applications.
Generate resourceCommunications within Healthcare Settings: Students will apply various methods of giving and obtaining health care information and communicate effectively both orally and in writing.
Generate resourceApply the concepts of effective verbal and nonverbal communication in the healthcare industry.
Generate resourceIdentify appropriate speaking and active listening skills to communicate information in a healthcare setting.
Generate resourceRole-play types of verbal and nonverbal communication between healthcare providers and patients.
Generate resourceExplore ways that barriers interfere with communication in the healthcare setting (i.e., physical disability, psychological barriers).
Generate resourceDifferentiate between subjective and objective information for healthcare workers.
Generate resourceDescribe the elements of healthcare communication using a sender-receiver model.
Generate resourceUtilize medical terminology appropriate to a specific health science occupation.
Generate resourceAnalyze roots, prefixes and suffixes to determine correct meanings of medical words.
Generate resourceDefine medical terminology and abbreviations as related to illness or injury.
Generate resourceIdentify elements of professional quality healthcare documents in print and electronic formats.
Generate resourceSystems in Healthcare: Students will illustrate how a healthcare worker's role fits into a department, an organization, and the overall healthcare environment, identifying how key systems influence services performed and quality of care.
Generate resourceDelineate elements and examples of healthcare delivery systems focusing on funding sources, organizational mission and purpose and types of facilities and services.
Generate resourceClassify healthcare organizations as public, private, government or non-profit and describe the roles of workers.
Generate resourceDescribe services provided by various types of healthcare facilities (public, private, government, non-profit).
Generate resourceExplain the factors influencing healthcare delivery systems (aging populations, non-traditional gender roles, financing and culture).
Generate resourceDescribe the responsibilities of consumers within the healthcare system (respect rights of healthcare workers and other patients, responsible healthcare habits, becoming an educated advocate for yourself).
Generate resourceDistinguish between responsible and irresponsible consumer behavior within the healthcare delivery system.
Generate resourceExplain the impact of emerging issues such as technology, epidemiology, bioethics and socioeconomics on healthcare delivery systems.
Generate resourceDescribe emerging issues related to technology, epidemiology, bioethics and socioeconomics.
Generate resourceDescribe ways people pay for health care services (i.e., government programs, private insurance, self-fund).
Generate resourceExplain insurance related terms (i.e. premium, deductible, co-insurance, co-payment).
Generate resourceEmployability Skills for Healthcare Workers: Students will demonstrate how employability skills enhance their employment opportunities and job satisfaction.
Generate resourceDemonstrate personal traits of healthcare professionals and positive work behaviors for retaining employment in the healthcare industry.
Generate resourceDefine and list personal traits that might be possessed by people in the healthcare field.
Generate resourceDiscuss possible implications of inappropriate dress and hygiene practices of healthcare workers.
Generate resourceDistinguish between appropriate behaviors in a social vs. professional healthcare setting.
Generate resourceExplain the progression of healthcare job titles achieved with increasing education and experience.
Generate resourceMatch personal aptitudes with healthcare career opportunities to create a career goal.
Generate resourceDemonstrate skills related to seeking and applying for employment to find and obtain a healthcare job.
Generate resourceDifferentiate between an academic portfolio and professional portfolio for healthcare workers.
Generate resourceLegal Responsibilities of Healthcare Providers: Students will identify the legal responsibilities, limitations and implications of actions within the healthcare delivery setting, performing duties according to regulations, policies, laws and legislated rights of clients.
Generate resourceInterpret and evaluate legal responsibilities and implications in a variety of healthcare settings.
Generate resourceDemonstrate behavior that is consistent with personal values of a healthcare worker.
Generate resourceCompare and contrast personal values and personal legal responsibilities.
Generate resourceExamine and assess standards for Health Insurance Portability and Accountability Act (HIPAA).
Generate resourceRecognize situations in which confidentiality must be maintained in healthcare settings.
Generate resourceDescribe appropriate individuals and procedures for sharing confidential information.
Generate resourceDescribe legal guidelines and procedures for sharing patient information.
Generate resourceAbide by and support current laws governing worker rights and responsibilities.
Generate resourceIdentify employment laws that govern child labor in the healthcare industry.
Generate resourceEthical Practices for Healthcare Environments: Students will apply accepted ethical practices with respect to cultural, social and ethic differences within the healthcare environment and perform quality healthcare delivery.
Generate resourceDevelop practices within the school, community and healthcare setting that respect ethical boundaries.
Generate resourceExplain how medical treatment of others is influenced by ethical behavior.
Generate resourceIdentify behaviors that reflect appropriate boundaries for various roles in healthcare.
Generate resourceDescribe consequences of ethical and unethical behavior in healthcare settings.
Generate resourceDemonstrate respect and appreciation for diversity of individuals within the healthcare setting.
Generate resourceExplain how diversity influences beliefs and behaviors about medical care.
Generate resourceRecognize ways to use different strengths to improve work outcomes in a healthcare setting.
Generate resourceSafety within Healthcare Settings: Students will analyze the existing and potential hazards to clients, co-workers, and self, working to prevent injury or illness through safe work practices and follow health and safety policies and procedures.
Generate resourceDescribe personal safety procedures and equipment used in healthcare settings.
Generate resourceDemonstrate how to apply and remove safety gloves, safety glasses and gowns used in healthcare settings.
Generate resourceExplain purpose for healthcare signs, symbols, and labels related to safety.
Generate resourceEstablish precautionary safety measures for responding to unsafe situations or hazardous materials.
Generate resourcePredict outcomes when healthcare fire prevention and safety practices are not followed.
Generate resourceDemonstrate responses to medical emergencies that keep self and others safe.
Generate resourceTeamwork Skills for Healthcare Workers: Students will identify the roles and responsibilities of individual members as part of the healthcare team, including their ability to promote the delivery of quality healthcare, interacting effectively and sensitively with all members of the healthcare team.
Generate resourceCompare and contrast roles and responsibilities of various healthcare team members.
Generate resourcePractice methods for building positive team relationships needed in a healthcare setting.
Generate resourceDistinguish between effective and ineffective team relationships in healthcare.
Generate resourceDemonstrate leadership skills to accomplish organizational goals in a healthcare setting as well as a local HOSA chapter.
Generate resourceIdentify characteristics of effective and ineffective leaders in healthcare.
Generate resourceHealth Maintenance Practices: Students will analyze the fundamentals of wellness and the prevention of disease processes, practicing preventive health behaviors among clients.
Generate resourceApply health science concepts to identify behaviors that promote health and wellness.
Generate resourceDescribe short and long term benefits of healthy eating and regular physical activity.
Generate resourceIdentify indicators of intellectual, emotional, social, and physical health.
Generate resourceDescribe and apply strategies for the prevention of diseases including health screenings and examinations.
Generate resourceExplain the role of proper hand washing and personal etiquette as it relates to disease prevention.
Generate resourceIdentify strategies for the prevention of diseases including health screenings and examinations.
Generate resourceDescribe how the body fights germs and diseases naturally, with medicines, and through immunizations.
Generate resourceAnalyze complementary (alternative) health practices as they relate to wellness and disease prevention.
Generate resourceIdentify complementary (alternative) health practices as they relate to wellness and disease prevention.
Generate resourceDescribe situations that may benefit from professional alternative health practice services.
Generate resourceStudents use science and engineering practices, disciplinary core ideas, and patterns to make sense of phenomena and solve problem
Generate resourceStudents recognize macroscopic patterns are related to the nature of microscopic and atomic-level structure. They identify patterns in rates of change and other numerical relationships that provide information about natural and human-designed systems. They use patterns to identify cause and effect relationships and use graphs and charts to identify patterns in data.
Generate resourceStudents use science and engineering practices, disciplinary core ideas, and cause and effect relationships to make sense of phenomena and solve problems.
Generate resourceStudents classify relationships as causal or correlational, and recognize correlation does not necessarily imply causation. They use cause and effect relationships to predict phenomena in natural or designed systems. They also understand that phenomena may have more than one cause, and some cause and effect relationships in systems can only be explained using probability.
Generate resourceStudents use science and engineering practices, disciplinary core ideas, and an understanding of scale, proportion and quantity to make sense of phenomena and solve problems.
Generate resourceStudents observe time, space, and energy phenomena at various scales using models to study systems that are too large or too small. They understand phenomena observed at one scale may not be observable at another scale, and the function of natural and designed systems may change with scale. They use proportional relationships (e.g., speed as the ratio of distance traveled to time taken) to gather information about the magnitude of properties and processes. They represent scientific relationships through the use of algebraic expressions and equations.
Generate resourceStudents use science and engineering practices, disciplinary core ideas, and an understanding of systems and models to make sense of phenomena and solve problems.
Generate resourceStudents understand systems may interact with other systems: they may have sub-systems and be a part of larger complex systems. They use models to represent systems and their interactions—such as inputs, processes, and outputs—and energy, matter, and information flows within systems. They also learn that models are limited in that they only represent certain aspects of the system under study.
Generate resourceStudents use science and engineering practices, disciplinary core ideas, and an understanding of energy and matter to make sense of phenomena and solve problems.
Generate resourceStudents understand matter is conserved because atoms are conserved in physical and chemical processes. They also understand that within a natural or designed system the transfer of energy drives the motion and cycling of matter. Energy may take different forms (e.g. energy in fields, thermal energy, and energy of motion). The transfer of energy can be tracked as energy flows through a designed or natural system.
Generate resourceStudents use science and engineering practices, disciplinary core ideas, and an understanding of structure and function to make sense of phenomena and solve problems.
Generate resourceStudents model complex and microscopic structures and systems and visualize how their function depends on the shapes, composition, and relationships among their parts. They analyze many complex natural and designed structures and systems to determine how they function. They design structures to serve particular functions by taking into account properties of different materials, and how materials can be shaped and used.
Generate resourceStudents use science and engineering practices, disciplinary core ideas, and an understanding of stability and change to make sense of phenomena and solve problems.
Generate resourceStudents explain stability and change in natural or designed systems by examining changes over time, and considering forces at different scales, including the atomic scale. They understand changes in one part of a system might cause large changes in another part, systems in dynamic equilibrium are stable due to a balance of feedback mechanisms, and stability might be disturbed by either sudden events or gradual changes that accumulate over time.
Generate resourceStudents use science and engineering practices, cross-cutting concepts, and an understanding of Earth's place in the universe to make sense of phenomena and solve problems.
Generate resourceThe solar system is part of the Milky Way, which is one of many billions of galaxies.
Generate resourceThe solar system contains many varied objects held together by gravity. Solar system models explain and predict eclipses, lunar phases, and seasons.
Generate resourceRock strata and the fossil record can be used as evidence to organize the relative occurrence of major historical events in Earth's history.
Generate resourceAlthough one design may not perform the best across all tests, identifying the characteristics of the design that performed the best in each test can provide useful information for the redesign process—That is, some of those characteristics may be incorporated into the new design.
Generate resourceThe iterative process of testing the most promising solutions and modifying what is proposed on the basis of the test results leads to greater refinement and ultimately to an optimal solution.
Generate resourceStudents use science and engineering practices, crosscutting concepts, and an understanding of Earth's systems to make sense of phenomena and solve problems.
Generate resourceEnergy flows and matter cycles within and among Earth's systems, including the sun and Earth's interior as primary energy sources. Plate tectonics is one result of these processes.
Generate resourcePlate tectonics is the unifying theory that explains movements of rocks at Earth's surface and geological history. Maps are used to display evidence of plate movement.
Generate resourceWater cycles among land, ocean, and atmosphere, and is propelled by sunlight and gravity. Density variations of sea water drive interconnected ocean currents. Water movement causes weathering and erosion, changing landscape features.
Generate resourceComplex interactions determine local weather patterns and influence climate, including the role of the ocean.
Generate resourceThe fossil record documents the existence, diversity, extinction, and change of many life forms throughout history.
Generate resourceStudents use science and engineering practices, crosscutting concepts, and an understanding of the Earth and human activity to make sense of phenomena and solve problems.
Generate resourceHumans depend on Earth's land, oceans, fresh water, atmosphere, and biosphere for different resources, many of which are limited or not renewable. Resources are distributed unevenly around the planet as a result of past geologic processes.
Generate resourcePatterns can be seen through mapping the history of natural hazards in a region and understanding related geological forces.
Generate resourceHuman activities have altered the hydrosphere, atmosphere, and lithosphere which in turn has altered the biosphere. Changes to the biosphere can have different impacts for different living things. Activities and technologies can be engineered to reduce people's impacts on Earth.
Generate resourceEvidence suggests human activities affect global warming. Decisions to reduce the impact of global warming depend on understanding climate science, engineering capabilities, and social dynamics.
Generate resourceStudents use science and engineering practices, cross-cutting concepts, and an understanding of engineering design to make sense of phenomena and solve problems.
Generate resourceThe more precisely a design task's criteria and constraints can be defined, the more likely it is that the designed solution will be successful. Specification of constraints includes consideration of scientific principles and other relevant knowledge that are likely to limit possible solutions.
Generate resourceA solution needs to be tested and then modified on the basis of the test results in order to improve it. There are systematic processes for evaluating solutions with respect to how well they meet the criteria and constraints of a problem.
Generate resourceSometimes parts of different solutions can be combined to create a solution that is better than any of its predecessors.
Generate resourceStudents use science and engineering practices, crosscutting concepts, and an understanding of the links among Engineering, Technology, Science, and Society to make sense of phenomena and solve problems.
Generate resourceEngineering advances have led to important discoveries in virtually every field of science, and scientific discoveries have led to the development of entire industries and engineered systems.
Generate resourceInfluence of Engineering, Technology, and Science on Society and the Natural World
Generate resourceAll human activity draws on natural resources and has both short and long-term consequences, positive as well as negative, for the health of people and the natural environment.
Generate resourceThe uses of technologies are driven by people's needs, desires, and values; by the findings of scientific research; and by differences in such factors as climate, natural resources, and economic conditions.
Generate resourceStudents use science and engineering practices, cross-cutting concepts, and an understanding of the nature of science and engineering to make sense of phenomena and solve problems.
Generate resourceIndividuals and teams from many nations, cultures and backgrounds have contributed to advances in science and engineering.
Generate resourceScientists and engineers are persistent, use creativity, reasoning, and skepticism, and remain open to new ideas.
Generate resourceScience and Engineering Are Unique Ways of Thinking with Different Purposes
Generate resourceScience asks questions to understand the natural world and assumes that objects and events in natural systems occur in consistent patterns that are understandable through measurement and observation. Science carefully considers and evaluates anomalies in data and evidence.
Generate resourceEngineering seeks solutions to human problems, including issues that arise due to human interaction with the environment. It uses some of the same practices as science and often applies scientific principles to solutions.
Generate resourceScience and engineering have direct impacts on the quality of life for all people. Therefore, scientists and engineers need to pursue their work in an ethical manner that requires honesty, fairness and dedication to public health, safety and welfare.
Generate resourceScience and Engineering Use Multiple Approaches to Create New Knowledge and Solve Problems
Generate resourceA theory is an explanation of some aspect of the natural world. Scientists develop theories by using multiple approaches. Validity of these theories and explanations is increased through a peer review process that tests and evaluates the evidence supporting scientific claims.
Generate resourceTheories are explanations for observable phenomena based on a body of evidence developed over time. A hypothesis is a statement that can be tested to evaluate a theory. Scientific laws describe cause and effect relationships among observable phenomena.
Generate resourceEngineers develop solutions using multiple approaches and evaluate their solutions against criteria such as cost, safety, time and performance. This evaluation often involves trade-offs between constraints to find the optimal solution.
Generate resourceStudents use science and engineering practices, crosscutting concepts, and an understanding of structures and processes (on a scale from molecules to organisms) to make sense of phenomena and solve problems.
Generate resourceAll living things are made up of cells. In organisms, cells work together to form tissues and organs that are specialized for particular body functions.
Generate resourceAnimals engage in behaviors that increase the odds of reproduction. An organism's growth is affected by both genetic and environmental factors.
Generate resourcePlants use the energy from light to make sugars through photosynthesis. Within individual organisms, food is broken down through a series of chemical reactions that rearrange molecules and release energy.
Generate resourceEach sense receptor responds to different inputs, transmitting them as signals that travel along nerve cells to the brain. The signals are then processed in the brain resulting in immediate behavior or memories.
Generate resourceStudents use science and engineering practices, crosscutting concepts, and an understanding of the interactions, energy, and dynamics within ecosystems to make sense of phenomena and solve problems.
Generate resourceOrganisms and populations are dependent on their environmental interactions both with other living things and with nonliving factors, any of which can limit their growth. Competitive, predatory, and mutually beneficial interactions vary across ecosystems but the patterns are shared.
Generate resourceThe atoms that make up the organisms in an ecosystem are cycled repeatedly between the living and nonliving parts of the ecosystem. Food webs model how matter and energy are transferred among producers, consumers, and decomposers as the three groups interact within an ecosystem.
Generate resourceEcosystem characteristics vary over time. Disruptions to any part of an ecosystem can lead to shifts in all of its populations. The completeness or integrity of an ecosystem's biodiversity is often used as a measure of its health.
Generate resourceChanges in biodiversity can influence humans' resources, such as food, energy, and medicines, as well as ecosystem services that humans rely on -- for example, water purification and recycling.
Generate resourceStudents use science and engineering practices, crosscutting concepts, and an understanding of heredity to make sense of phenomena and solve problems.
Generate resourceGenes chiefly regulate a specific protein, which affect an individual's traits.
Generate resourceIn sexual reproduction, each parent contributes half of the genes acquired by the offspring resulting in variation between parent and offspring. Genetic information can be altered because of mutations, which may result in beneficial, negative, or no change to proteins in or traits of an organism.
Generate resourceStudents use science and engineering practices, cross-cutting concepts, and an understanding of biological evolution to make sense of phenomena and solve problems.
Generate resourceThe fossil record documents the existence, diversity, extinction, and change of many life forms and their environments through Earth's history. The fossil record and comparisons of anatomical similarities between organisms enables the inference of lines of evolutionary descent.
Generate resourceBoth natural and artificial selection result from certain traits giving some individuals an advantage in surviving and reproducing, leading to predominance of certain traits in a population.
Generate resourceSpecies can change over time in response to changes in environmental conditions through adaptation by natural selection acting over generations. Traits that support successful survival and reproduction in the new environment become more common.
Generate resourceChanges in biodiversity can influence humans' resources and ecosystem services they rely on.
Generate resourceStudents use science and engineering practices, crosscutting concepts, and an understanding of matter and its interactions to make sense of phenomena and solve problems.
Generate resourceThe fact that matter is composed of atoms and molecules can be used to explain the properties of substances, diversity of materials, states of matter, phase changes, and conservation of matter.
Generate resourceReacting substances rearrange to form different molecules, but the number of atoms is conserved. Some reactions release energy and others absorb energy.
Generate resourceStudents use science and engineering practices, crosscutting concepts, and an understanding of forces, interactions, motion and stability to make sense of phenomena and solve problems.
Generate resourceMotion and changes in motion can be qualitatively described using concepts of speed, velocity, and acceleration (including speeding up, slowing down, and/or changing direction).
Generate resourceThe role of the mass of an object must be qualitatively accounted for in any change of motion due to the application of a force (Newton's first and second law).
Generate resourceFor any pair of interacting objects, the force exerted by the first object on the second object is equal in strength to the force that the second object exerts on the first, but in the opposite direction (Newton's third law).
Generate resourceForces that act at a distance involve fields that can be mapped by their relative strength and effect on an object
Generate resourceStudents use science and engineering practices, cross-cutting concepts, and an understanding of energy to make sense of phenomena and solve problems.
Generate resourceKinetic energy can be distinguished from the various forms of potential energy.
Generate resourceEnergy changes to and from each type can be tracked through physical or chemical interactions. The relationship between the temperature and the total energy of a system depends on the types, states, and amounts of matter.
Generate resourceWhen two objects interact, each one exerts a force on the other, and these forces can transfer energy between the interacting objects.
Generate resourceSunlight is captured by plants and used in a chemical reaction to produce sugar molecules for storing this energy. This stored energy can be released by respiration or combustion, which can be reversed by burning those molecules to release energy.
Generate resourceStudents use science and engineering practices, cross-cutting concepts, and an understanding of waves and their applications in technologies for information transfer to make sense of phenomena and solve problems.
Generate resourceA simple wave model has a repeating pattern with a specific wavelength, frequency, and amplitude, and mechanical waves need a medium through which they are transmitted. This model can explain many phenomena including sound and light. Waves can transmit energy.
Generate resourceThe construct of a wave is used to model how light interacts with objects.
Generate resourceWaves can be used to transmit digital information. Digitized information is comprised of a pattern of 1s and 0s.
Generate resourceStudents ask questions and define problems, in conjunction with using crosscutting concepts and disciplinary core ideas, to make sense of phenomena and solve problems.
Generate resourceStudents ask questions to specify relationships between variables and clarify arguments and models. This includes the following:
Generate resourceAsk questions that arise from careful observation of phenomena, models, or unexpected results, to clarify or seek additional information.
Generate resourceAsk questions to identify and clarify evidence and the premise(s) of an argument.
Generate resourceAsk questions to determine relationships between independent and dependent variables and relationships in models.
Generate resourceAsk questions to clarify or refine a model, an explanation, or an engineering problem.
Generate resourceAsk questions that require sufficient and appropriate empirical evidence to answer.
Generate resourceAsk questions that can be investigated within the scope of the classroom, outdoor environment, and museums and other public facilities with available resources and, when appropriate, frame a hypothesis based on observations and scientific principles.
Generate resourceAsk questions that challenge the premise(s) of an argument or the interpretation of a data set.
Generate resourceStudents define a design problem that can be solved through the development of an object, tool, process, or system, and includes multiple criteria and constraints, including scientific knowledge that may limit possible solutions.
Generate resourceStudents develop and use models, in conjunction with using crosscutting concepts and disciplinary core ideas, to make sense of phenomena and solve problems.
Generate resourceStudents develop, use, and revise models to describe, test, and predict more abstract phenomena and design systems. This includes the following:
Generate resourceDevelop or modify a model—based on evidence – to match what happens if a variable or component of a system is changed.
Generate resourceUse and develop a model of simple systems with uncertain and less predictable factors.
Generate resourceDevelop and/or revise a model to show the relationships among variables, including those that are not observable but predict observable phenomena.
Generate resourceDevelop and use a model to generate data to test ideas about phenomena in natural or designed systems, including those representing inputs and outputs, and those at unobservable scales.
Generate resourceStudents plan and carry out investigations, in conjunction with using crosscutting concepts and disciplinary core ideas, to make sense of phenomena and solve problems.
Generate resourceStudents plan and carry out investigations that use multiple variables and provide evidence to support explanations or solutions. This includes the following:
Generate resourceIndividually and collaboratively plan an investigation, identifying: independent and dependent variables and controls, tools needed to do the gathering, how measurements will be recorded, and how many data are needed to support a claim.
Generate resourceEvaluate and revise the experimental design to produce data that serve as the basis for evidence to meet the goals of the investigation.
Generate resourceCollect data under a range of conditions that serve as the basis for evidence to answer scientific questions or test design solutions.
Generate resourceCollect data about the performance of a proposed object, tool, process, or system under a range of conditions.
Generate resourceStudents analyze and interpret data, in conjunction with using crosscutting concepts and disciplinary core ideas, to make sense of phenomena and solve problems.
Generate resourceStudents extend quantitative analysis to investigations, distinguishing between correlation and causation, and basic statistical techniques of data and error analysis. This includes the following:
Generate resourceConstruct, analyze, or interpret graphical displays of data and large data sets to identify linear and nonlinear relationships.
Generate resourceUse graphical displays (e.g., maps, charts, graphs, and tables) of large data sets to identify temporal and spatial relationships.
Generate resourceAnalyze and interpret data to provide evidence for explanations of phenomena.
Generate resourceApply concepts of statistics and probability (including mean, median, mode, and variability) to analyze and characterize data, using digital tools when feasible.
Generate resourceConsider limitations of data analysis (e.g., measurement error), and seek to improve precision and accuracy of data with better technological tools and methods (e.g., multiple trials).
Generate resourceAnalyze and interpret data to determine similarities and differences in findings.
Generate resourceAnalyze data to define an optimal operational range for a proposed object, tool, process, or system that best meets criteria for success.
Generate resourceStudents use mathematics and computational thinking, in conjunction with using crosscutting concepts and disciplinary core ideas, to make sense of phenomena and solve problems.
Generate resourceStudents identify patterns in large data sets and use mathematical concepts to support explanations and arguments. This includes the following:
Generate resourceUse digital tools (e.g., computers) to analyze very large data sets for patterns and trends.
Generate resourceUse mathematical representations to describe and support scientific conclusions and design solutions.
Generate resourceApply mathematical concepts and processes (such as ratio, rate, percent, basic operations, and simple algebra) to scientific and engineering questions and problems.
Generate resourceUse digital tools and mathematical concepts and arguments to test and compare proposed solutions to an engineering design problem.
Generate resourceStudents construct explanations and design solutions, in conjunction with using crosscutting concepts and disciplinary core ideas, to make sense of phenomena and solve problems.
Generate resourceStudents construct explanations supported by multiple sources of evidence consistent with scientific ideas, principles, and theories. This includes the following:
Generate resourceConstruct an explanation that includes qualitative or quantitative relationships between variables that predict and describe phenomena.
Generate resourceConstruct a scientific explanation based on valid and reliable evidence obtained from sources, including the students' own experiments. Solutions should build on the following assumption: theories and laws that describe the natural world operate today as they did in the past and will continue to do so in the future.
Generate resourceApply scientific ideas, principles, and evidence to construct, revise, or use an explanation for real world phenomena, examples, or events.
Generate resourceApply scientific reasoning to show why the data or evidence is adequate for the explanation.
Generate resourceStudents design solutions supported by multiple sources of evidence consistent with scientific ideas, principles, and theories. This includes the following:
Generate resourceApply scientific ideas or principles to design, construct, and test a design of an object, tool, process, or system.
Generate resourceUndertake a design project, engaging in the design cycle, to construct and implement a solution that meets specific design criteria and constraints.
Generate resourceOptimize performance of a design by prioritizing criteria, making trade-offs, testing, revising, and retesting.
Generate resourceStudents engage in argument from evidence, in conjunction with using crosscutting concepts and disciplinary core ideas, to make sense of phenomena and solve problems.
Generate resourceStudents construct a convincing argument that supports or refutes claims for either explanations or solutions about the natural and designed world. This includes the following.
Generate resourceCompare and critique two arguments on the same topic. Analyze whether they emphasize similar or different evidence and interpretations of facts.
Generate resourceRespectfully provide and receive critiques about one's explanations, procedures, models, and questions by citing relevant evidence and posing and responding to questions that elicit pertinent elaboration and detail.
Generate resourceConstruct, use, and present oral and written arguments supported by empirical evidence and scientific reasoning to support or refute an explanation or a model for a phenomenon or a solution to a problem.
Generate resourceMake an oral or written argument that supports or refutes the advertised performance of a device, process, or system. Based the argument on empirical evidence concerning whether or not the technology meets relevant criteria and constraints.
Generate resourceEvaluate competing design solutions based on jointly developed and agreed-upon design criteria.
Generate resourceStudents will obtain, evaluate and communicate information, in conjunction with using crosscutting concepts and disciplinary core ideas, to make sense of phenomena and solve problems.
Generate resourceStudents evaluate the merit and validity of ideas and methods. This includes the following:
Generate resourceCritically read scientific texts adapted for classroom use to determine the central ideas, to obtain scientific and technical information, and to describe patterns in and evidence about the natural and designed world(s).
Generate resourceClarify claims and findings by integrating text-based qualitative and quantitative scientific information with information contained in media and visual displays.
Generate resourceGather, read, and synthesize information from multiple appropriate sources and assess the credibility, accuracy, and possible bias of each publication. Describe how they are supported or not supported by evidence and evaluate methods used.
Generate resourceEvaluate data, hypotheses, and conclusions in scientific and technical texts in light of competing information or accounts.
Generate resourceCommunicate scientific and technical information (e.g. about a proposed object, tool, process, or system) in writing and through oral presentations.
Generate resourceEarth and Space
Generate resourcePhysical
Generate resourcePrecursor Level: Use a model to show that Earth's Moon moves around Earth, and Earth and its Moon move around the Sun.
Generate resourceTarget Level: Use an Earth-Sun-Moon model to show that Earth's orbit around the Sun corresponds to a calendar year and the orbit of the Moon around Earth corresponds to a month.
Generate resourceInitial Level: Identify the process that forms igneous rock (e.g., volcanoes).
Generate resourcePrecursor Level: Use a model to describe the change from igneous to sedimentary rock.
Generate resourceTarget Level: Use a model to describe the change within the rock cycle between igneous, metamorphic, and sedimentary rock.
Generate resourceInitial Level: Identify differences in weather conditions from day to day.
Generate resourcePrecursor Level: Identify geoscience processes (e.g., wind, rain, runoff) that have an impact on landforms (e.g., landslides, erosion such as gullies).
Generate resourceTarget Level: Explain how geoscience processes that occur daily (e.g.,wind, rain, runoff) slowly change the surface of Earth, while catastrophic events (e.g., earthquakes, tornadoes, floods) can quickly change the surface of Earth.
Generate resourceInitial Level: Interpret basic weather information (e.g., radar, map) to identify weather conditions.
Generate resourcePrecursor Level: Interpret basic weather information (e.g., radar, map) to compare weather conditions (either over several days at the same location or different locations on the same day).
Generate resourceTarget Level: Interpret basic weather information (e.g., radar, map) to make predictions about future conditions (e.g., precipitation, temperature, wind).
Generate resourcePrecursor Level: Identify the geoscience process that produces a natural resource (e.g., solar energy creating wind energy, rock cycle with ores and minerals).
Generate resourceTarget Level: Interpret, based on evidence, how the geoscience processes (e.g., weathering, erosion) create resources.
Generate resourceInitial Level: Recognize resources (e.g., food, water, shelter, air) in the local environment that are important for human life.
Generate resourcePrecursor Level: Recognize ways in which humans impact the environment (e.g., agriculture, pollution, recycling, city growth).
Generate resourceTarget Level: Develop a plan to monitor and minimize a human impact on the local environment (e.g., water, land, pollution).
Generate resourcePrecursor Level: Use a model to demonstrate how organs are connected in major organ systems.
Generate resourceTarget Level: Make a claim about how a structure (e.g., organs and organ systems) and its related function supports survival of animals (circulatory, digestive, and respiratory systems).
Generate resourceTarget Level: Interpret data to show that environmental resources (e.g., food, light, space, water) influence growth of organisms (e.g., drought decreasing plant growth, fertilizer increasing plant growth, different varieties of plant seeds growing at different rates in different conditions, fish growing larger in large ponds than small ponds).
Generate resourcePrecursor Level: Classify animals based on what they eat (e.g., herbivore, omnivore, carnivore).
Generate resourceTarget Level: Use models of food chains/webs to identify producers and consumers in aquatic and terrestrial ecosystems.
Generate resourceInitial Level: Recognize that organisms differ within same species (e.g., dogs, chickens, oaks that differ in color and size).
Generate resourcePrecursor Level: Identify similarities and differences between plant and animal parents and their offspring (e.g., eye color, hair/fur color, height, leaf shape, and/or markings).
Generate resourceTarget Level: Make a claim supported by evidence that offspring inherit traits from their parents.
Generate resourceInitial Level: Observe and identify examples of change (e.g. state of matter, color, temperature, and odor).
Generate resourcePrecursor Level: Gather data on the properties (e.g., color, texture, odor, and state of matter) of substances before and after chemical changes have occurred (e.g., burning sugar or burning steel wool, rust, effervescent tablets).
Generate resourceTarget Level: Interpret and analyze data on the properties (e.g., color, texture, odor, and state of matter) of substances before and after chemical changes have occurred (e.g., burning sugar or burning steel wool, rust, effervescent tablets).
Generate resourceInitial Level: Identify ways to change the movement of an object (e.g., faster, slower, stop).
Generate resourcePrecursor Level: Investigate and identify ways to change the motion of an object (e.g., change an incline's slope to make an object go slower, faster, farther).
Generate resourceTarget Level: Investigate and predict the change in motion of objects based on the forces acting on those objects.
Generate resourceIdentify objects/materials used to minimize or maximize thermal energy transfer (e.g., gloves, vacuum flask, insulated hot pad holder or foam cup).
Generate resourceInvestigate objects/materials, and predict their ability to maximize or minimize thermal energy transfer.
Generate resourceTarget Level: Test and refine a device (e.g., foam cup, insulated box, or thermos) to either minimize or maximize thermal energy transfer (e.g., keeping liquids hot or cold, preventing liquids from freezing, keeping hands warm in cold temperatures).
Generate resourceInitial Level: Use a model to recognize that sound waves are transmitted by vibrations.
Generate resourcePrecursor Level: Investigate changes in vibrations and sources of sound in everyday life.
Generate resourceTarget Level: Use a model to show how light waves (e.g., light through a water glass, light on colored objects) or sound waves are reflected, absorbed, or transmitted through various materials (e.g., water, air, table).
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