Browse Standards
View all PreK-12 NYS Learning Standards in a dropdown list format.
Standard Area - ARTS: NYS The Arts
Standard Area - ARTS: NYS The Arts
Standard Area - CDOS: NYS Career Development and Occupational Studies
Standard Area - CDOS: NYS Career Development and Occupational Studies
Standard Area - CSDF: NYS Computer Science and Digital Fluency
Standard Area - CSDF: NYS Computer Science and Digital Fluency
Standard Area - ELA: NYS Next Generation English Language Arts
Standard Area - ELA: NYS Next Generation English Language Arts
Standard Area - HPF: NYS Health, Physical Education, and Family and Consumer Sciences
Standard Area - HPF: NYS Health, Physical Education, and Family and Consumer Sciences
Standard Area - NY-MATH: NYS Next Generation Mathematics
Standard Area - NY-MATH: NYS Next Generation Mathematics
Standard Area - PE: NYS Physical Education
Standard Area - PE: NYS Physical Education
Standard Area - S: NYS Science
Standard Area - S: NYS Science
Standard Area - SEL: NYS Social Emotional Learning Benchmarks
Standard Area - SEL: NYS Social Emotional Learning Benchmarks
Standard Area - SS: NYS Social Studies Framework
Standard Area - SS: NYS Social Studies Framework
Standard Area - TECH: Learning Standards for Technology (see MST standards under Previous Standard Versions)
Standard Area - TECH: Learning Standards for Technology (see MST standards under Previous Standard Versions)
Standard Area - WL: World Languages
Standard Area - WL: World Languages
Standard Area - Previous Standards Versions
Standard Area - Previous Standards Versions
Standard Area - ARTS: The Arts (1996)
Standard Area - ARTS: The Arts (1996)
Standard Area - ELA: English Language Arts (NYS P-12 Common Core)
Standard Area - ELA: English Language Arts (NYS P-12 Common Core)
Standard Area - LOTE: NYS Languages Other Than English
Standard Area - LOTE: NYS Languages Other Than English
Standard Area - LHSS: Literacy in History/Social Studies (NYS 5-12 Common Core)
Standard Area - LHSS: Literacy in History/Social Studies (NYS 5-12 Common Core)
Standard Area - LSTS: Literacy in Science and Technical Subjects (NYS 6-12 Common Core)
Standard Area - LSTS: Literacy in Science and Technical Subjects (NYS 6-12 Common Core)
Standard Area - ELA: English Language Arts (2005)
Standard Area - ELA: English Language Arts (2005)
Standard Area - ESL: English as a Second Language
Standard Area - ESL: English as a Second Language
Standard Area - NLA: Native Language Arts
Standard Area - NLA: Native Language Arts
Standard Area - Math: Mathematics (NYS P-12 Common Core)
Standard Area - Math: Mathematics (NYS P-12 Common Core)
Standard Area - MST: Math, Science & Technology
Standard Area - MST: Math, Science & Technology
Standard - MST1: Analysis, Inquiry, and Design Students will use mathematical analysis, scientific inquiry, and engineering design, as appropriate,
to pose questions, seek answers, and develop solutions.
Standard - MST1: Analysis, Inquiry, and Design Students will use mathematical analysis, scientific inquiry, and engineering design, as appropriate,
to pose questions, seek answers, and develop solutions.
Academic Level - MST1.E: Elementary
Academic Level - MST1.E: Elementary
Introduction - MST1.E.Introduction: Science process skills should be based on a series of discoveries. Students learn most effectively when they have a central role in the discovery process. To that end, Standards 1, 2, 6, and 7 incorporate in the Elementary Science Core Curriculum a student-centered, problem-solving approach to intermediate science. The following is an expanded version of the skills found in Standards 1, 2, 6, and 7 of the Learning Standards for Mathematics, Science, and Technology. This list is not intended to be an all-inclusive list of the content or skills that teachers are expected to incorporate into their curriculum. It should be a goal of the instructor to encourage science process skills that will provide students with background and curiosity sufficient to prompt investigation of important issues in the world around them. Note: the use of e.g. denotes examples which may be used for in-depth study. The terms for example and such as denote material which is testable. Items in paranthesis denote further definition of the word(s) preceding the item and are testable
Introduction - MST1.E.Introduction: Science process skills should be based on a series of discoveries. Students learn most effectively when they have a central role in the discovery process. To that end, Standards 1, 2, 6, and 7 incorporate in the Elementary Science Core Curriculum a student-centered, problem-solving approach to intermediate science. The following is an expanded version of the skills found in Standards 1, 2, 6, and 7 of the Learning Standards for Mathematics, Science, and Technology. This list is not intended to be an all-inclusive list of the content or skills that teachers are expected to incorporate into their curriculum. It should be a goal of the instructor to encourage science process skills that will provide students with background and curiosity sufficient to prompt investigation of important issues in the world around them. Note: the use of e.g. denotes examples which may be used for in-depth study. The terms for example and such as denote material which is testable. Items in paranthesis denote further definition of the word(s) preceding the item and are testable
Key Idea Code - MST1.E.MA: Mathematical Analysis
Key Idea Code - MST1.E.MA: Mathematical Analysis
Key Idea Code - MST1.E.SI: Scientific Inquiry
Key Idea Code - MST1.E.SI: Scientific Inquiry
Key Idea Code - MST1.E.ED: Engineering Design
Key Idea Code - MST1.E.ED: Engineering Design
Key Idea - MST1.E.ED.1: Engineering Design: Engineering design is an iterative process involving modeling and optimization (finding the best solution within given constraints); this process is used to develop technological solutions to problems within given
constraints.
Key Idea - MST1.E.ED.1: Engineering Design: Engineering design is an iterative process involving modeling and optimization (finding the best solution within given constraints); this process is used to develop technological solutions to problems within given
constraints.
Performance Indicator - MST1.E.ED.1.1: Students engage in the following steps in a design process: describe objects, imaginary or real, that might be modeled or made differently and suggest ways in which the objects can be changed, fixed, or improved.
Performance Indicator - MST1.E.ED.1.1: Students engage in the following steps in a design process: describe objects, imaginary or real, that might be modeled or made differently and suggest ways in which the objects can be changed, fixed, or improved.
Performance Indicator - MST1.E.ED.1.2: Students engage in the following steps in a design process: investigate prior solutions and ideas from books, magazines, family, friends, neighbors, and community members.
Performance Indicator - MST1.E.ED.1.2: Students engage in the following steps in a design process: investigate prior solutions and ideas from books, magazines, family, friends, neighbors, and community members.
Performance Indicator - MST1.E.ED.1.3: Students engage in the following steps in a design process: generate ideas for possible solutions, individually and through group activity; apply age-appropriate mathematics and science skills; evaluate the ideas and determine the best solution; and explain reasons for the choices.
Performance Indicator - MST1.E.ED.1.3: Students engage in the following steps in a design process: generate ideas for possible solutions, individually and through group activity; apply age-appropriate mathematics and science skills; evaluate the ideas and determine the best solution; and explain reasons for the choices.
Performance Indicator - MST1.E.ED.1.4: Students engage in the following steps in a design process: plan and build, under supervision, a model of the solution using familiar materials, processes, and hand tools.
Performance Indicator - MST1.E.ED.1.4: Students engage in the following steps in a design process: plan and build, under supervision, a model of the solution using familiar materials, processes, and hand tools.
Performance Indicator - MST1.E.ED.1.5: Students engage in the following steps in a design process: discuss how best to test the solution; perform the test under teacher supervision; record and portray results through numerical and graphic means; discuss orally why things worked or didn’t work; and summarize results in writing, suggesting ways to make the solution
better.
Performance Indicator - MST1.E.ED.1.5: Students engage in the following steps in a design process: discuss how best to test the solution; perform the test under teacher supervision; record and portray results through numerical and graphic means; discuss orally why things worked or didn’t work; and summarize results in writing, suggesting ways to make the solution
better.
Major Understandings - MST1.E.ED.1.5a: Determine a way to test the finished solution or model
Major Understandings - MST1.E.ED.1.5a: Determine a way to test the finished solution or model
Major Understandings - MST1.E.ED.1.5b: Perform the test and record the results, numerically and/or graphically
Major Understandings - MST1.E.ED.1.5b: Perform the test and record the results, numerically and/or graphically
Major Understandings - MST1.E.ED.1.5c: Analyze results and suggest how to improve the solution or model, using oral, graphic, or written formats
Major Understandings - MST1.E.ED.1.5c: Analyze results and suggest how to improve the solution or model, using oral, graphic, or written formats
Academic Level - MST1.I: Intermediate
Academic Level - MST1.I: Intermediate
Academic Level - MST1.C: Commencement
Academic Level - MST1.C: Commencement
Academic Level - MST1.Alt: Alternate Level
Academic Level - MST1.Alt: Alternate Level
Standard - MST2: Information Systems Students will access, generate, process, and transfer information using appropriate technologies.
Standard - MST2: Information Systems Students will access, generate, process, and transfer information using appropriate technologies.
Standard - MST3: Mathematics (2005) Students will understand the concepts of and become proficient with the skills of mathematics, communicate and reason mathematically, and become problem solvers by using appropriate tools and strategies, through the integrated study of number sense and operations, algebra, geometry, measurement, and statistics and probability.
Standard - MST3: Mathematics (2005) Students will understand the concepts of and become proficient with the skills of mathematics, communicate and reason mathematically, and become problem solvers by using appropriate tools and strategies, through the integrated study of number sense and operations, algebra, geometry, measurement, and statistics and probability.
Standard - MST4: Science Students will understand and apply scientific concepts, principles, and theories pertaining to the physical setting and living environment and recognize the historical development of ideas in science.
Standard - MST4: Science Students will understand and apply scientific concepts, principles, and theories pertaining to the physical setting and living environment and recognize the historical development of ideas in science.
Standard - MST5: Technology Students will apply technological knowledge and skills to design, construct, use, and evaluate products and systems to satisfy human and environmental needs.
Standard - MST5: Technology Students will apply technological knowledge and skills to design, construct, use, and evaluate products and systems to satisfy human and environmental needs.
Standard - MST6: Interconnectedness: Common Themes Students will understand the relationships and common themes that connect mathematics, science, and technology and apply the themes to these and other areas of learning.
Standard - MST6: Interconnectedness: Common Themes Students will understand the relationships and common themes that connect mathematics, science, and technology and apply the themes to these and other areas of learning.
Standard - MST7: Interdisciplinary Problem Solving Students will apply the knowledge and thinking skills of mathematics, science, and technology to address real-life problems and make informed decisions.
Standard - MST7: Interdisciplinary Problem Solving Students will apply the knowledge and thinking skills of mathematics, science, and technology to address real-life problems and make informed decisions.
Standard Area - SS: Social Studies
Standard Area - SS: Social Studies
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