Transforming Institutions : Undergraduate STEM Education for the 21st Century

Transforming Institutions Undergraduate STEM Education for the 21st Century

"Higher education is coming under increasing scrutiny, both publically and within academia, with respect to its ability to appropriately prepare students for the careers that will make them competitive in the 21st-century workplace. At the same time, there is a growing awareness that many globa...

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Detalles Bibliográficos
Otros Autores: Weaver, Gabriela C., editor (editor)
Formato: Libro electrónico
Idioma:Inglés
Publicado: West Lafayette, Indiana : Purdue University Press 2016.
Materias:
Mathematics > Study and teaching (Higher) > United States.
Engineering > Study and teaching (Higher) > United States.
Technology > Study and teaching (Higher) > United States.
Science > Study and teaching (Higher) > United States.
Electronic books.
Ver en Biblioteca Universitat Ramon Llull:https://discovery.url.edu/permalink/34CSUC_URL/1im36ta/alma991009428802806719
Tabla de Contenidos:
  • Cover; Copyright; Table of Contents; Foreword; Introduction; 1. Why Now is the Time for Institution-level Thinking in STEM Higher Education; 2. Transforming Undergraduate STEM Education: Responding to Opportunities, Needs and Pressures; Section A: Theories and Models of Institutional Transformation; 1. The Reform of Undergraduate Science, Technology, Engineering, and Mathematics Education in Context: Preparing Tomorrow's STEM Professionals and Educating a STEM- Savvy Public; 2. Institutional Transformation in STEM: Insights from Change Research and the Keck-PKAL Project
  • 3. The Role of Cultural Change in Large-Scale STEM Reform: The Experience of the AAU Undergraduate STEM Education Initiative4. Increasing Student Success in STEM: An Overview for a New Guide to Systemic Institutional Change; Section B: Case Studies-Projects at the Institution Level; 1. Advancing Evidence-Based Teaching in Gateway Science Courses Through a Mentor-Apprentice Model; 2. Developing Faculty Cultures for Evidence-Based Teaching Practices in STEM: A Progress Report; 3. From Grassroots to Institutionalization: RIT's CASTLE
  • 4. Towards a Model of Systemic Change in University STEM Education5. The Science Education Initiative: An Experiment in Scaling Up Educational Improvements in a Research University; 6. Planning Transformation of STEM Education in a Research University; 7. Supporting STEM Education: Reflections of the Central Indiana Talent Expansion Project; 8. Applying the CACAO Change Model to Promote Systemic Transformation in STEM; 9. Review of the Undergraduate Science Curriculum at the University of Queensland
  • 10. Key Elements to Create and Sustain Educational Innovation at a Research-Intensive University11. Changing Practice Towards Inquiry-Oriented Learning; Section C: Case Studies-Projects at the Course and Department Level; 1. The Vertically Integrated Projects (VIP) Program: Leveraging Faculty Research Interests to Transform Undergraduate STEM Education; 2. Transformative Initiatives: How iFoundry Reimagines STEM Education for the 21st Century; 3. Current Directions in Modern Undergraduate Engineering Education
  • 4. How an R-1 University Rallies Around Transforming Education: Opportunities and Challenges5. Departmental Redesign: Transforming the Chattanooga State Math Program; 6. Successful Model for Professional Development: Creating and Sustaining Faculty Learning Communities; Section D: Faculty Development; 1. A Disciplinary Teaching and Learning Center: Applying Pedagogical Content Knowledge to Faculty Development; 2. Faculty Learning Communities: A Professional Development Model that Fosters Individual, Departmental, and Institutional Impact; 3. STEM Faculty Perceptions of Concept Map Assessments
  • 4. Teaching to Increase Diversity and Equity in STEM (TIDES): STEM Faculty Professional Development for Self-Efficacy

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