Have you ever posed a scientific question to your students only to hear crickets? Have you ever planned an intriguing investigation only to have it flop because of lack of student engagement? In this session, science teachers will explore practical strategies to cultivate a classroom culture that inspires curiosity, fosters collaboration, and maximizes student engagement. Participants will learn how to create an environment where students feel valued, safe to take risks, and excited to explore the wonders of science. Through guided discussions, case studies, and hands-on activities, teachers will discover techniques to promote active learning, build a sense of community, and develop classroom routines that support inquiry-based and student-centered teaching. By the end of the session, educators will leave with a toolkit of strategies to strengthen student connections, enhance participation, and create a dynamic classroom atmosphere where students are motivated and eager to learn.
In this professional learning session, participants will explore the power of science notebooks as tools to deepen student sensemaking and engagement in the science classroom. Science notebooks offer students opportunities to document their observations, make connections, and reflect on their learning in ways that support critical thinking and collaboration. Through interactive activities and real-world examples, you’ll leave with ideas and resources to make science notebooking a meaningful part of your students’ learning journey. This session is ideal for educators seeking to empower their students as independent thinkers and problem solvers in the science classroom.
In this hands-on presentation, we will model the amount of water content in a cloud, formation of clouds in a container, and identify clouds in the sky. You’ll walk away with activities and resources you can use in your classroom. These lessons and activities can be used from the elementary grades to high school. Closely tied to the Wisconsin Science Standards, students make predictions, carry out investigations, use models, and construct explanations. I have used these activities in Earth and Space Science classes during the meteorology unit and in Weather & Climate classes while we are investigating the formation of clouds and precipitation. Time permitting, we will look into how reading the clouds in the sky and their movement can help in the weather prediction process and give us an idea of future weather patterns.
Facilitators will bring their 15+ years of background in science to help lead discussion in lab and investigation safety. In this session attendees will share ideas for science investigation facilitation. This will include informal exploration activities as well as formal and multiple day investigations. Ideas will be shared as to how to make classroom safety student centered. Attendees will also test their knowledge on best practices and apply new understanding of best practices to their science classroom by exploring science classroom safety plans.
Environmental DNA, or eDNA, is an emerging technology and important conservation tool of natural resource professionals used to monitor the presence or absence of species, such as invasive carp. This session will engage participants in portions of the field and laboratory experience and in the curriculum refinement process for utilizing environmental DNA (eDNA) to detect the presence of invasive carp in the Wisconsin River. When finalized, participants will receive the field and laboratory investigation protocols and additional educational materials. The curriculum is designed for middle and high school students. Participant objectives are to experience portions of the curriculum and provide critical feedback for refinement. This session connects to NGSS Science Practices 1 & 4 (Plan, justify, and carry out an investigation & Apply reasoning from evidence to support a claim) and Cross Cutting Concept 1 (Interpret cause and effect relationships.)
This project is a collaborative effort between the UW Madison Division of Extension, UW-Madison Genetics & Biotechnology Center, Freshwater@UW Collaborative, Wisconsin 4-H, Wisconsin Sea Grant Institute, and the U.S. Geological Survey, and was made possible by a Wisconsin Sea Grant and Division of Extension Innovation Grant.
Time tends to be the limiting factor on how well a teacher can truly dive into using the NGSS standards. A flipped classroom can give time back to the class period and allow for more student collaboration in their learning. In my presentation, I will go over the key elements of managing a flipped classroom. These elements include: the pre-class learning and the technological logistics involved, how to hold students accountable for the pre-class learning, the way a teacher's role is shifted from direct instruction to facilitator, and how to fully utilize the freed up class time for group work, case studies, review activities, and hands-on learning. I will make sure to address the difficulties that also come with a flipped classroom. To keep this session interactive I will have audience members model numerous examples of the interactive review activities that I have used over the years.
After reading Ambitious Science Teaching in 2022, I began to approach my classes much differently. Ambitious Science Teaching is a methodology which encourages student engagement, discussion, problem solving, and modeling. As with any new pedagogy, the desire to implement change can be daunting. Do I need to start from scratch? Can I implement new methods, without having to find new curriculum and materials?
I say you can! Come and hear about my journey to implement Ambitious Science Teaching methodologies, increasing student engagement without completely reinventing the wheel. Student work samples will be shown, so you can get an idea of how implementation of these ideas has increased student achievement as well.
Teacher, Mentoring Coordinator, Shiocton High School
I'm interested in Physics and Chemistry instruction, as well as interesting ways to increase student talk and alternative assessment. I'm also a foodie and comic book nerd.
Thursday April 3, 2025 3:00pm - 3:50pm CDT
Thistle
Harnessing students’ innate curiosity about the natural world and desire to protect it can be done with hands-on classroom activities that build STEM skills, increase environmental literacy and show sustainable paths forward. In this session, the presenter will facilitate a series of interdisciplinary lessons that involve collecting and analyzing data, creating 3D models and working collaboratively on solving authentic problems. Raise environmental literacy while creating a 3-D model of land use, engaging in a simulation of carrying capacity in a habitat, and using engineering skills in experimenting ways to clean up a local river. The presented lessons are designed to deepen students’ understanding of “Earth and Human Activities” (ESS3) and Ecosystems (LS2) with several Cross-cutting Concepts (Patterns; Cause-and-Effect; Scale, Proportion and Quantity; Systems and System Models; Stability and Change). Participants will receive lesson plans, data sets and links to digital tools.
Kevin will share NGSS-aligned resources for teaching climate change, vaccines, and evolution. We'll discuss strategies to teach them to students in ways that will be approachable for all. We'll also discuss how to support general media literacy for students - weeding out the fuzzy from the evidence-based. Finally, we'll discuss the psychological barriers that make people want to believe certain things and keep them believing it despite the evidence. It's important to note that private school teachers also teach these topics!
Science Education Consultant, Wisconsin Department of Public Instruction
Dr. Anderson currently works as the Science Education Consultant at the Wisconsin Department of Public Instruction (DPI). He enjoys helping educators improve science programs and instruction to support all students in making sense of the world and solving problems. Previously, he... Read More →
We will share examples of and have time to work on storyline-based pedagogy. We'll pull form Illinois Storylines, OpenSciEd, and anything else new coming out (hoping on BSCS). It will be interactive, not just listening to us go blah, blah, blah. While it will be the culminating session of the Storylines Book Study this year, people who were not a part of that can still attend and will find it just as valuable. We'll also be drawing from the book, Ambitious Science Teaching.
Science Education Consultant, Wisconsin Department of Public Instruction
Dr. Anderson currently works as the Science Education Consultant at the Wisconsin Department of Public Instruction (DPI). He enjoys helping educators improve science programs and instruction to support all students in making sense of the world and solving problems. Previously, he... Read More →
Quality literacy and science instruction make a powerful pair. Students have much to gain from classroom instruction that intentionally integrates science and literacy in a way that builds towards rigorous outcomes in both content areas. In this session we will share resources and ideas from a new science leadership tool, hosted by DPI, for implementing quality literacy and science instruction together. Discuss the roles of multiple stakeholders, learn from evidence-based accounts of best practices, and consider the common barriers and pitfalls of integrated instruction.
Science Education Consultant, Wisconsin Department of Public Instruction
Dr. Anderson currently works as the Science Education Consultant at the Wisconsin Department of Public Instruction (DPI). He enjoys helping educators improve science programs and instruction to support all students in making sense of the world and solving problems. Previously, he... Read More →
Thoughtful systems are essential for elementary science programs. Science leaders from across the state worked to develop a series of Science Leadership Tools to help districts consider ways to implement quality science instruction. Join us to learn about and discuss these five new tools; Developing a Vision, Elementary Materials Selection, Assessment and Reporting, Scheduling, and Connecting Science and Literacy.
Science Coordinator, Wisconsin Rapids Public Schools
I am the Wisconsin Rapids K-12 Science Curriculum Coordinator for 50% of my job and the other 50% is teaching Physics. I am also an adjunct faculty in Physics with Mid-state Technical College in Wisconsin Rapids.
Science Education Consultant, Wisconsin Department of Public Instruction
Dr. Anderson currently works as the Science Education Consultant at the Wisconsin Department of Public Instruction (DPI). He enjoys helping educators improve science programs and instruction to support all students in making sense of the world and solving problems. Previously, he... Read More →
Delve into the fascinating world of protein structure and function, focusing on the principles of protein folding and the critical role of active sites in enzymes. Participants will explore these complex topics through hands-on molecular models. This session will feature our Amino Acid Starter kit and a first look at the newly redesigned Acetylcholinesterase Active Site Model!
I was a classroom teacher for 25 years. I am now the National SMART team coordinator and Science Educator for 3D Molecular designs.In my free time, I am an avid fisherman and obsessive vinyl record collector.
Soil and water are inextricably linked. Negative soil charges, known as cation exchange capacity (CEC), are essential for soil nutrient and contaminant retention, water filtration, and surface and groundwater quality. In this session, we will discuss the basics of how soils get their charge, the impact of CEC on soil and surface water chemistry, and the practical application of CEC to food production and waste management systems. Through easy and visual experiments using ionic dyes and water quality test strips, you will evaluate the CEC of diverse soils and explore the impacts of varying soil CECs on nutrient retention and loss. At the end of the session, you will be able to describe the source of charge in soils, the impact of diverse land management practices on soil CEC, as well as the connection between soil CEC and potential surface and groundwater quality.
I've been a soil scientist with the USDA Natural Resources Conservation Service for 32 years. I started my career mapping soils and collected soil data in northern and western Wisconsin. I now help soil survey users interpret soils and their properties. I also enjoy hydric soils... Read More →
Many students aren’t aware of the breadth of jobs in natural resource conservation. From scientists to artists and GIS specialists to bloggers, conservation agencies and organizations are seeking passionate individuals with a wide variety of skills to help address growing soil, water, air, and wildlife challenges. In this session, we will introduce various educational resources, case study materials, and practical classroom demonstrations to integrate into your current curriculums to highlight potential natural resource career paths. At the end of the session, you will be able to identify diverse examples of natural resource conservation professionals and describe their general qualifications and job duties, as well as discuss how the knowledge and skills learned in your courses are applicable to a career in conservation.
This session is designed for educators who are new to AI or hesitant about using it. Attendees will be introduced to a variety of AI platforms to help determine which tools might best suit their needs. Real-life examples will demonstrate how AI can be used for creating and modifying content, designing unique classroom experiences, and saving time in both professional and personal tasks.
The presentation will highlight intuitive, accessible tools directly applicable to teachers’ daily routines. Participants will have time to explore these tools and see firsthand how easy it is to integrate AI into their practice in manageable steps.
By the end of the session, attendees will feel more confident about incorporating AI into their work, knowing that these tools are meant to enhance—not replace—their teaching.
Learning Objectives:
Understand how AI can streamline and simplify everyday tasks for teachers. Discover AI tools to amplify your lessons and engage students in new ways. Gain confidence in using AI to enhance both your professional and personal life.
High School Science Teacher, School District of Waukesha
This is my 12th year as a high school science teacher (Chemistry and Physics). I am an inveterate user of Blackboard and Google apps to facilitate instruction both virtually and face-to-face. I enjoy testing the capabilities and limits of what a program can offer me because my... Read More →
Saturday April 5, 2025 10:00am - 10:50am CDT
Thistle
Discover an engaging, NGSS-aligned activity that introduces students to the science of light pollution and empowers them to develop design solutions to real-world problems. In this presentation, participants will explore light pollution. We will look at the causes and effects of lighting up our night sky. They will then be challenged to use the Engineering Design Process to provide a solution to our current light pollution problem.
Attendees will: 1. Investigate the phenomenon of light pollution and why it matters. 2. Engage in a hands-on activity, constructing and testing mini streetlights in a homemade planetarium. 3. Explore the engineering design process, focusing on optimizing light shields to reduce light pollution while maintaining safety. 4. Learn how skills are used for assessment at Racine Unified School District
Through collaboration and interactive problem-solving, participants will experience the lesson from the student perspective while gaining practical resources to bring this learning to their own classrooms. This activity connects STEAM learning with Earth Science, engineering, and astronomy.
