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Grade 6 Science West Virginia standards Standards

128 standards - West Virginia West Virginia standards

These are the official Grade 6 Science West Virginia West Virginia standards — the exact codes and student expectations grade 6 teachers are required to teach and West Virginia state test assesses. Browse every standard below, then generate a print-ready, West Virginia standards-aligned worksheet, lesson plan, exit ticket, or assessment for any of them in seconds.

Standards

Impacts of Computing

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Programming and Algorithms

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Data and Information

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Networks and Cyber Infrastructure

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Computer Systems and Computational Thinking

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CS.6-8.1

Analyze and devise problem-solving strategies cooperatively and collaboratively.

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CS.6-8.10

Analyze the problem and use a tool (e.g., flow chart) to design an algorithm to solve complex problems.

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CS.6-8.11

Understand the function of control structures to create specific behaviors (e.g., sequential, selection, repetition).

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CS.6-8.12

rite computer program(s) to solve simple problems and document the process for others to reference.

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CS.6-8.13

Seek and incorporate feedback from team members and users to refine a solution that meets user needs.

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CS.6-8.14

Determine the uses of computing concepts and technology in global collaboration.

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CS.6-8.15

Explain how computer science fosters innovation in all careers and disciplines.

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CS.6-8.16

Discuss issues of bias and accessibility in the design of existing technologies.

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CS.6-8.2

Systematically identify and fix problems with computing, devices and their components.

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CS.6-8.3

Analyze connections between elements of computer science and mathematics.

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CS.6-8.4

Use various computer applications and online resources to explore how networks and cyber infrastructure work together to provide security and prevent system compromise.

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CS.6-8.5

Model appropriate data privacy and cyber security procedures when using a computer.

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CS.6-8.6

Understand how information is transmitted via wired and wireless networks and the security vulnerability of each.

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CS.6-8.7

Convert various types of data into different formats.

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CS.6-8.8

Use digital tools to collect, organize, and analyze data.

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CS.6-8.9

Produce accurate and correct information from data.

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Engineering Design

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Human Impacts

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Weather and Climate

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Space Systems

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Matter and Energy in Organisms and Ecosystems

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Interdependent Relationships in Ecosystems

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Waves and Electromagnetic Radiation

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Atoms and Elements

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Domain

Engineering, Technology, and Applications of Science

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Domain

Earth and Space Science

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Domain

Life Science

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Domain

Physical Science

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EDS.6.20

Define the criteria and constraints of a design problem with sufficient precision to ensure a successful solution.

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EDS.6.21

Analyze data from tests to determine similarities and differences among several design solutions to identify the best characteristics of each.

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S.6.1

Construct an explanation that predicts patterns of interactions among organisms across multiple ecosystems.

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S.6.10

Use mathematical representations to describe a simple model for waves that includes how the amplitude of a wave is related to the energy in a wave.

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S.6.11

Develop and use a model to describe that waves are reflected, absorbed, or transmitted through various materials.

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S.6.12

Integrate qualitative scientific and technical information to support the claim that digitized signals are a more reliable way to encode and transmit information than analog signals.

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S.6.13

Develop and use a model of the Earth-sun-moon system to describe the cyclic patterns of lunar phases, eclipses of the sun and moon, and seasons.

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S.6.14

Develop and use a model to describe the role of gravity in the motions within galaxies and the solar system.

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S.6.15

Analyze and interpret data to determine scale properties of objects in the solar system.

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S.6.16

Collect data to provide evidence for how the motions and complex interactions of air masses results in changes in weather conditions.

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S.6.17

Develop 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.

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S.6.18

Ask questions to clarify evidence of the factors that have caused the change in global temperatures over the past century.

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S.6.19

analyze and interpret data on natural hazards to forecast future catastrophic events and inform the development of technologies to mitigate their effects.

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S.6.2

Evaluate competing design solutions for maintaining biodiversity and ecosystem services.

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S.6.3

Construct a scientific explanation based on evidence for the role of photosynthesis in the cycling of matter and flow of energy into and out of organisms.

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S.6.4

Develop a model to describe how food is rearranged through chemical reactions forming new molecules that support growth and/or release energy as this matter moves through an organism.

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S.6.5

Analyze and interpret data to provide evidence for the effects of resource availability on organisms and populations of organisms in an ecosystem.

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S.6.6

Develop a model to describe the cycling of matter and flow of energy among living and nonliving parts of an ecosystem.

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S.6.7

Construct an argument supported by empirical evidence that changes to physical or biological components of an ecosystem affect populations.

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S.6.8

Develop models to describe the relationship between atoms and molecules.

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S.6.9

Utilize the periodic table as an informational tool to identify elements.

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Impacts of Computing

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Computers and Communications Devices

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Programming and Algorithms

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Collaboration

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Computer Systems and Computational Thinking

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CS.DCS.1

Use the basic steps in algorithmic problem-solving to design solutions (e.g., problem statement and exploration, examination of sample instances, design, implementing a solution, testing, and evaluation).

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CS.DCS.10

Evaluate what kinds of problems can be solved using modeling and simulation.

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CS.DCS.11

Analyze the degree to which a computer model accurately represents the real world.

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CS.DCS.12

Use abstraction to decompose a problem into subproblems.

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CS.DCS.13

Understand the notion of hierarchy and abstraction in computing including high level languages, translation, instruction set, and logic circuits.

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CS.DCS.14

Examine connections between elements of mathematics and computer science including binary numbers, logic, sets and functions.

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CS.DCS.15

Provide examples of interdisciplinary applications of computational thinking.

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CS.DCS.16

Apply productivity/multimedia tools and peripherals to group collaboration and support learning throughout the curriculum.

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CS.DCS.17

Collaboratively design, develop, publish, and present products (e.g., videos, podcasts, websites) using technology resources that demonstrate and communicate curriculum concepts.

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CS.DCS.18

Use collaborative practices such as pair programming, working in project teams, and participating in group active learning activities.

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CS.DCS.19

Demonstrate characteristics necessary for collaboration: providing useful feedback, integrating feedback, understanding and accepting multiple perspectives, socialization.

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CS.DCS.2

Describe the process of parallelization as it relates to problem-solving.

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CS.DCS.20

Select appropriate tools and technology resources to accomplish a variety of tasks and solve problems.

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CS.DCS.21

Use a variety of multimedia tools and peripherals to support personal productivity and learning throughout the curriculum.

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CS.DCS.22

Design, develop, publish, and present products (e.g., webpages, mobile applications, animations) using technology resources that demonstrate and communicate curriculum concepts.

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CS.DCS.23

Demonstrate an understanding of algorithms and their practical application.

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CS.DCS.24

Implement problem solutions using a programming language, including: looping behavior, conditional statements, logic, expressions, variables, and functions.

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CS.DCS.25

Demonstrate good practices in personal information security, using passwords, encryption, and secure transactions.

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CS.DCS.26

Identify interdisciplinary careers that are enhanced by computer science.

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CS.DCS.27

Demonstrate characteristics used in open ended problem-solving and programming (e.g., comfort with complexity, persistence, brainstorming, adaptability, patience, propensity to tinker, creativity, accepting challenge).

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CS.DCS.28

Collect and analyze data that is output from multiple runs of a computer program.

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CS.DCS.29

Recognize that computers are devices that execute programs.

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CS.DCS.3

Define an algorithm as a sequence of instructions that canbe processed by a computer.

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CS.DCS.30

Identify a variety of electronic devices that contain computational processors.

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CS.DCS.31

Demonstrate an understanding of the relationship between hardware and software.

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CS.DCS.32

Use developmentally appropriate, accurate terminology when communicating about technology.

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CS.DCS.33

Apply strategies for identifying and solving routine hardware problems that occur during everyday computer use.

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CS.DCS.34

Describe the major components and functions of computer systems and networks.

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CS.DCS.35

Describe what distinguishes humans from machines focusing on human intelligence versus machine intelligence and ways we can communicate.

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CS.DCS.36

Describe ways in which computers use models of intelligent behavior (e.g., robot motion, speech and language understanding, and computer vision).

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CS.DCS.37

Demonstrate legal and ethical behaviors when using information and technology and discuss the consequences of misuse.

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CS.DCS.38

Demonstrate knowledge of changes in information technologies over time and the effects those changes have on education, the workplace, and society.

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CS.DCS.39

Analyze the positive and negative impacts of computing on human culture.

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CS.DCS.4

Evaluate ways that different algorithms may be used to solve the same problem.

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CS.DCS.40

Evaluate the accuracy, relevance, appropriateness, comprehensiveness, and bias of electronic information sources concerning real-world problems.

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CS.DCS.5

Act out searching and sorting algorithms.

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CS.DCS.6

Describe and analyze a sequence of instructions being followed (e.g., describe a character's behavior in a video game as driven by rules and algorithms).

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CS.DCS.7

Represent data in a variety of ways including text, sounds, pictures, and numbers.

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CS.DCS.8

Use visual representations of problem states, structures, and data (e.g., graphs, charts, network diagrams, flowcharts).

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CS.DCS.9

Interact with content-specific models and simulations (e.g., ecosystems, epidemics, molecular dynamics) to support learning and research.

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Global Collaborator

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Creative Communicator

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Computational Thinker

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Innovative Designer

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Knowledge Constructor

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Digital Citizen

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Empowered Learner

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T.6-8.1

Navigate a variety of technologies and transfer their knowledge and skills to learn how to use new technologies.

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T.6-8.10

Locate and collect resources from a variety of sources and organize assets into collections for a wide range of projects and purposes.

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T.6-8.11

Practice and demonstrate the ability to evaluate resources for accuracy, perspective, credibility and relevance.

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T.6-8.12

Demonstrate and practice the ability to effectively utilize research strategies to locate appropriate digital resources in support of their learning.

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T.6-8.13

Create original works or responsibly repurpose other digital resources into new creative works.

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T.6-8.14

Select appropriate platforms and tools to create, share and communicate their work effectively.

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T.6-8.15

Explore real-world issues and problems and actively pursue an understanding of them and solutions for them.

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T.6-8.16

Select and use digital tools to support a design process and expand their understanding to identify constraints and trade-offs and to weight risks.

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T.6-8.17

Defend the selection of a specific technology tool to complete a learning task.

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T.6-8.18

Publish or present content designed for specific audiences and select platforms that will effectively convey their ideas to those audiences.

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T.6-8.19

Use communication tools (such as email, discussion boards, online conferences, learning management systems, and portfolios) to gather information, share ideas, and respond to questions.

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T.6-8.2

Actively seek performance feedback from people, including teachers and from functionalities embedded in digital tools to improve their learning process, and select technology to demonstrate their learning in a variety of ways.

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T.6-8.20

Select collaborative technologies and use them to work with others to investigate and develop solutions related to local and global issues.

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T.6-8.21

Use collaborative technologies to connect with others, including peers, experts, and community members, to learn about issues and problems or to gain broader perspective.

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T.6-8.22

Use digital tools to interact with others to develop a richer understanding of different perspectives and cultures.

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T.6-8.3

Identify and develop online networks within school policy, and customize their learning environments in ways that support their learning, in collaboration with an educator.

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T.6-8.4

Articulate personal learning goals, select and manage appropriate technologies to achieve them, and reflect on their successes and areas of improvement in working toward their goals.

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T.6-8.5

Manage their digital identities and reputations within school policy, including demonstrating an understanding of how digital actions are never fully erasable.

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T.6-8.6

Demonstrate and advocate for positive, safe, legal, and ethical habits when using technology and when interacting with others online.

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T.6-8.7

Demonstrate and advocate for an understanding of intellectual property with both print and digital media-including copyright, permission, and fair use by creating a variety of media products that include appropriate citation and attribution elements.

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T.6-8.8

Demonstrate an understanding of what personal data is and how to keep it private and secure, including the awareness of terms such as encryption, Hyper Text Transfer Protocol Security (HTTPS), password, cookies and computer viruses; they also understand the limitations of data management and how data-collection technologies work.

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T.6-8.9

Communicate complex ideas clearly using various digital tools to convey the concepts textually, visually, graphically, etc.

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