--- license: mit title: Science Talk Adventure sdk: gradio short_description: interactive simulation for elementary teachers --- # 🌱 Science Talk Adventure: Multi-Scenario Practice An interactive simulation for preservice elementary teachers to practice facilitating equitable science discussions across multiple grade levels. ## 🎯 Available Scenarios ### Kindergarten: Weather Watchers ☀️ - **NGSS Standard:** K-ESS2-1 Weather Patterns - **Phenomenon:** Why do puddles disappear on sunny days? - **Students:** Diverse 5-6 year olds with different weather experiences ### Grade 2: Plant Investigation 🌱 - **NGSS Standard:** 2-LS2-1 Environmental Plant Needs - **Phenomenon:** Why do classroom plants look different? - **Students:** 2nd graders with family gardening knowledge ### Grade 4: Energy Transfer ⚡ - **NGSS Standard:** 4-PS3-2 Energy Transfer - **Phenomenon:** Why do metal spoons get hot but wooden ones don't? - **Students:** 4th graders with family mechanical and cooking knowledge ### Grade 5: Community Ecosystems 🌍 - **NGSS Standard:** 5-LS2-1 Environmental Matter Cycling - **Phenomenon:** Why do different garden areas have different living things? - **Students:** 5th graders with diverse agricultural and ecological knowledge ## 🎮 How to Play 1. **Choose your scenario** from the dropdown menu 2. **Read about your students** and their cultural backgrounds 3. **Type what you'd say** to start the science discussion 4. **Read student responses** showing their diverse perspectives 5. **Choose your teaching move** from the provided options 6. **Get immediate feedback** on equity and pedagogical effectiveness 7. **Watch engagement levels** change based on your choices ## 👥 Meet Your Students Each scenario features 4-5 diverse students with: - **Different cultural backgrounds** and languages - **Varied family knowledge** about science topics - **Unique communication styles** and participation patterns - **Authentic elementary thinking** about scientific phenomena ## 🎓 Learning Objectives Practice essential skills: - **Cultural Asset Building:** Recognize and build on students' home knowledge - **Equitable Participation:** Include all voices, especially quieter students - **Scientific Discourse:** Facilitate authentic scientific thinking and argumentation - **NGSS 3D Learning:** Integrate science practices, crosscutting concepts, and core ideas - **Responsive Teaching:** Build on student ideas rather than just correcting ## 🌟 Key Features - **Multiple Grade Levels:** K-5 scenarios aligned with NGSS standards - **Authentic Student Voices:** AI-generated responses based on real student thinking patterns - **Cultural Responsiveness:** Students bring diverse cultural and linguistic assets - **Real-time Feedback:** Immediate assessment of teaching moves - **Engagement Tracking:** See how your choices affect different students - **Scenario Variety:** Switch between different science topics and grade levels ## 🔧 Technical Details - **Built with:** Gradio for web interface, OpenRouter API for AI responses - **Hosted on:** Hugging Face Spaces (free hosting) - **AI Models:** Multiple language models for diverse student perspectives - **Open Source:** Free to use and modify for educational purposes ## 📚 Educational Research Base Based on research showing elementary teachers need practice with: - Building on diverse cultural knowledge in science - Creating equitable classroom discussions - Implementing NGSS 3-dimensional learning - Supporting multilingual learners in science - Developing confidence in science teaching ## 🚀 Getting Started 1. **Select a scenario** that matches your interest or course needs 2. **Read the student descriptions** to understand their backgrounds 3. **Start your science talk** - there's no "right" way to begin! 4. **Experiment with different approaches** - you can restart anytime 5. **Pay attention to engagement levels** - notice how different students respond to your choices ## 🎭 Scenario Rotation Suggestions ### For Teacher Preparation Courses: - **Week 1-2:** Start with Grade 2 Plants (foundational equity skills) - **Week 3-4:** Try Kindergarten Weather (youngest learners) - **Week 5-6:** Practice Grade 4 Energy (more complex content) - **Week 7-8:** Challenge with Grade 5 Ecosystems (advanced discourse) ### For Professional Development: - **Session 1:** Choose grade level you teach - **Session 2:** Try unfamiliar grade level - **Session 3:** Focus on scenario with most cultural diversity - **Session 4:** Practice with content you find challenging ## 💡 Reflection Questions After each scenario, consider: - Which students did you naturally include vs. overlook? - How did you respond to cultural knowledge that differed from textbooks? - What surprised you about student thinking? - How might you transfer these skills to real classrooms? - What would you do differently in a second attempt? ## 🔄 For Instructors ### Classroom Integration Ideas: - **Pre-Practice:** Have students predict what they'd do before playing - **Post-Practice:** Debrief choices and discuss alternatives - **Comparison:** Have students try same scenario with different approaches - **Transfer:** Connect game choices to upcoming field placement goals ### Assessment Opportunities: - **Reflection Essays:** Students analyze their choice patterns - **Peer Discussion:** Compare strategies and share insights - **Action Planning:** Students set goals for real classroom practice - **Portfolio Evidence:** Include game sessions in teaching portfolios ## 🤝 Contributing This is an open source educational tool! Ways to contribute: - **Report bugs** or suggest improvements - **Add new scenarios** for different grade levels or topics - **Enhance student personas** with more diverse backgrounds - **Improve cultural authenticity** of student responses - **Translate scenarios** into other languages ## 🔗 Related Resources ### Science Education Equity: - Culturally Responsive Teaching in Science - NGSS Equity and Inclusion Guidelines - Multilingual Learners in Science Education ### Teaching Practice: - Science Talk: Language and Meaning (Zembal-Saul) - Making Thinking Visible in Science (Ritchhart) - 5 Practices for Orchestrating Productive Discourse ## 📊 Usage Analytics Track your progress: - **Scenarios Completed:** Try all 4 for comprehensive practice - **Teaching Points Earned:** Aim for consistent equity-focused choices - **Engagement Patterns:** Notice which students you include/exclude - **Growth Over Time:** Compare early vs. later attempts ## ⚠️ Important Notes ### What This Tool IS: - Practice space for developing equitable facilitation skills - Safe environment to experiment with different approaches - Opportunity to reflect on unconscious biases and patterns - Bridge between theory and real classroom practice ### What This Tool IS NOT: - Replacement for working with real students - Perfect simulation of actual classroom complexity - Training for specific cultural groups (students are individuals!) - Substitute for ongoing cultural competence development ## 🎯 Success Indicators You're developing strong facilitation skills when you: - **Consistently include** quieter or hesitant students - **Build on cultural knowledge** rather than dismissing it - **Create space** for multiple perspectives on phenomena - **Support scientific thinking** while honoring diverse ways of knowing - **Notice patterns** in your own facilitation choices ## 📧 Support Questions or feedback? - Check the discussion tab for community support - Report technical issues via the community forum - Suggest educational improvements through issues ## 📄 License MIT License - Free to use, modify, and share for educational purposes. --- *Remember: Every real student brings unique knowledge, experiences, and perspectives. This simulation provides practice, but authentic cultural responsiveness develops through genuine relationships with diverse communities.*