Materials Similar to The Student-Centered Activities for Large Enrollment Undergraduate Programs (SCALE-UP) Project
- 61%: The SCALE-UP Project: A Student-Centered Active Learning Environment for Undergraduate Programs
- 58%: Student-Centered Activities for Large Enrollment University Physics (SCALE-UP)
- 56%: SCALE-UP: Student-Centered Active Learning Environment for Undergraduate Programs
- 38%: An Activity-based Curriculum for Large Introductory Physics Classes: The SCALE-UP Project
- 36%: Workshop tutorials: Accommodating student-centered learning in large first year university physics courses
- 34%: Theoretically Framing a Complex Phenomenon: Student Success in Large Enrollment Active Learning Courses
- 30%: In-class hierarchical team model as a no-cost strategy to improve student success: Integrated peer leadership program
- 29%: Characterization of time scale for detecting impacts of reforms in an undergraduate physics program
- 29%: Online teaching-learning in STEM SCALE-UP classrooms during the COVID-19 pandemic: feedback from students
- 28%: Promoting Collaborative Groups in Large Enrollment Courses
- 28%: Teaching assistant-student interactions in a modified SCALE-UP classroom
- 26%: Improving Student Learning and Views of Physics in a Large Enrollment Introductory Physics Class
- 25%: Student goals and expectations in a large-enrollment physical science class
- 25%: Developing the learning physical science curriculum: Adapting a small enrollment, laboratory and discussion based physical science course for large enrollments
- 25%: Non-traditional students' conceptual scores and network centrality in SCALE-UP classrooms
- 25%: Differences between the SCALE-UP model and instructors' perceptions of implementation
- 25%: Using Large-Scale Classroom Research to Study Student Conceptual Learning in Mechanics and to Develop New Approaches to Learning
- 24%: Large-scale survey of Chinese precollege students' epistemological beliefs about physics: A progression or a regression?
- 24%: Reducing the gender gap in students’ physics self-efficacy in a team- and project-based introductory physics class