1. 1 Flip the Lecture, Flip the Lab, the Problem Based Lab Fad By Dr. Harold A. Geller @AstroBioProf Associate Professor Observatory Director George Mason University NASA/JPL Solar System Ambassador

2. Abstract Two (~20 students) interdisciplinary courses for non-science majors –Astrobiology and Energy and the Environment A flipped approach in lecture –Readings done by students before class –Review material with personal response system questions –Address thoughtful questions in groups A flipped approach in lab –Students perform traditional lab exercises on their own –Turn in lab write ups for grading –A problem based learning (PBL) approach to the lab –Students focus on a semester-long project culminating in a written paper and an oral presentation –Will lead to an edited publication of input from the students as well as papers by the faculty and graduate teaching assistant –Meeting participants will be subjected to the same teaching style that is utilized in the PBL based lab 2

3. 3 Physics Concepts in Astrobiology Newton’s Laws of Motion Universal Law of Gravitation Kepler’s Law of Planetary Motion Einstein’s Special Theory of Relativity –E = m c 2 –travel time and fuel considerations Einstein’s General Theory of Relativity 1 st and 2 nd Laws of Thermodynamics –Energy Concepts [potential, kinetic, etc.] Electricity and electronics Computers and their physical limits Conservation of Momentum

4. Physics Concepts in Energy and Environment 4 Fundamental concepts of energy –Nuclear Fission; Nuclear Fusion Measurements and units of energy Energy sources –Solar energy; Hydroelectric power; Wind power; Ocean thermal energy conversion; Geothermal power; Tidal energy; Wave energy; Nuclear energy Nuclear weapons Thermodynamics –Energy conservation Modes of transportation The atmosphere –Ozone layer –Greenhouse Gas Effect

5. 5 “Lecture” Mechanics “Flipped lecture” approach Astrobiology in a small class (~20) environment Reading assigned before class Personal response system used to quiz –Formative assessment Break up into groups of 3 or 4 Assign a leader, a recorder, and 1 or two others Give 3-5 thoughtful questions requiring critical thinking and scientific reasoning Share out results

6. Learning Management System 6

7. Use of a Wiki 7

8. Problem Based Learning Labs Lab meetings flipped too –Traditional labs assigned to do on own –Collect home lab assignments –Problem Based Learning added to labs Design an interstellar trip to the stars Questions addressed and shared out –In person with students during lab period Overarching goal of PBL labs –Design Multigenerational Ship to the Stars –Establish USA Energy Policy for Next 20 years 8

9. Acknowledgements The students of HNRT 228 Astrobiology –Spring 2014; Fall 2014; Spring 2015; Fall 2015 The students of HNRT 228 Energy and the Environment –Spring 2014; Spring 2015; Spring 2016 Graduate Teaching Assistant –Prabal Saxena (Spring/Fall 2014 and Spring 2015) Richard Oh; Sowmya Ranga; Sonia Thakur –Mentorship students Thomas Jefferson High School 9

10. Astrobiology Textbook Life in the Universe –Bennett –Shostak 10

11. Renewable Energy Textbook 11 First edition 2013 Robert Ehrlich Second edition 2017 Robert Ehrlich Harold Geller

12. Published June 2015 12

13. Post-Mordem Notes Interdisciplinary science courses in Honors College to end –Spring 2016 last semester for courses –Laboratory space was biggest issue Ehrlich (retired) and Geller (not retired) under contract to produce 2 nd edition of Renewable Energy textbook –Manuscript due September 2016 2 nd edition expected in spring 2017 13