Preparing for NGSS: Analyzing and Interpreting Data Add your information here:

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Presentation transcript:

Preparing for NGSS: Analyzing and Interpreting Data Add your information here:

A Framework for K-12 Science Education Released in July 2011 Developed by the National Research Council at the National Academies of Science Prepared by a committee of Scientists (including Nobel Laureates) and Science Educators Three-Dimensions: Scientific and Engineering Practices Crosscutting Concepts Disciplinary Core Ideas

Scientific and Engineering Practices 1.Asking questions (science) and defining problems (engineering) 2.Design and using models 3.Planning and carrying out investigations 4.Analyzing and interpreting data 5.Using mathematics and computational thinking 6.Developing explanations (science) and designing solutions (engineering) 7.Engaging in argument 8.Obtaining, evaluating, and communicating information

Practices Venn Diagram

Practices and the NGSS: Analyzing and Interpreting Data Overview: What is the practice of analyzing and interpreting data? Why is analyzing and interpreting data important? Connections with the Framework Progression of practice Classroom examples Discussion

What does “Analyzing and Interpreting Data” Mean? Instructions for Activity: 1.Grab Sticky Notes 2.At each poster, add your definition. 3.Also, provide an example of how your students model analyzing, interpreting, and using data in the classroom.

What Does “Analyzing and Interpreting Data” Mean? Data: Facts, statistics, or items of information – Students can use data to identify objects, systems, and help explain phenomena Analyze: To study or determine the nature and relationship of the parts – Students can analyze to attempt to determine the nature of information and understand relationships Interpret: To explain the meaning of – Students can use interpretations to develop claims and create viable arguments to support findings

The Practice of Analyzing and Interpreting Data Practices: Ways of thinking about and working with science concepts to address problems and answer questions The goal in science is to connect information (in the form of data) to some sort of claim or explanation In the process of connecting evidence, the information needs to be put in a form where the meaning of the data can be recognized and extracted (This is the practice of analysis and interpretation) Guiding Questions: – “What do the data we collected mean?” – “How do these data help me answer my question?”

Why Focus on Analyzing and Interpreting Data? Key piece of both the “doing” and the “thinking” of science that is often overlooked or skimmed over. Central to connecting abstract ideas and concrete examples (Big ideas can become specific) Uses multiple tools and strategies (not just 1 way). Engages a wide array of thinking and reasoning skills (qualitative and quantitative). When focusing on engineering, repetative cycles are not just trial and error. They are about figuring out the HOW it worked in a particular way and WHY.

Practices and the Framework

How Relates to Other Practices

A Central Practice

Students working with data What tools do your students use to represent data collected in the classroom?