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astro300_f13:day14 [2013/11/20 23:10] – [Ignorance Discussion (rest of minutes)] a_lee | astro300_f13:day14 [2014/11/25 00:20] (current) – a_lee |
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====== AY 375 Fall 2013: Fourteenth Day Plan ====== | ====== AY 375 Fall 2013: Fourteenth Day Plan ====== |
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Today we'll discuss | Today we'll continue talking about your Design-A-Section projects and our third special topic: student motivation and restructuring science courses. |
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====General Takeaways==== | ====General Takeaways==== |
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- aa | - The way most science classes are currently structured gives students the impression that science consists in memorizing facts and discovering new facts through a very straightforward, linear process. |
- bb | - If we want our students to think more like scientists and to have an understanding of the scientific process that's truer to reality (its nonlinearity, the importance of developing and refining questions, etc.), we need to restructure our courses and our assessment of students. |
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=====Ignorance Discussion (rest of minutes)===== | =====Ignorance Discussion (rest of minutes)===== |
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| Discussion questions: |
| - Firestein talks about the fact that many of the popular models/analogies of science are flawed in that they portray knowledge as finite, as something we can slowly unravel completely. What is your model/understanding of the scientific method? What would you want your students to understand about the scientific method? |
| - Do you agree with Firestein's opinion on the role ignorance plays in the teaching of science? If we are to move away from science being viewed as fact memorization and more as a investigative process, how do we do this without science being viewed as "just asking questions"? |
| - If we don't want students to think of science as the regurgitation of facts, we need to restructure our courses, and, in particular, rethink the way we assess/evaluate our students. Firestein suggests that assessment should involve feedback and opportunities for editing (just like in science) and that we should ask questions such as "This is what we know. What's the next question?" Do you agree with his suggestions? Can you think of ways of making them more concrete? How can we evaluate our students' scientific thinking? |
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Francesca's notes from the talk: | Francesca's notes from the talk: |
-The focus of science is what remains to be done. "Thoroughly conscious ignorance is the prelude to every real advance in science." | -The focus of science is what remains to be done. "Thoroughly conscious ignorance is the prelude to every real advance in science." |
-Models of science: puzzle, onion, iceberg > all take science to be a body of knowledge we're chipping away it, which slowly decreases with time | -Models of science: puzzle, onion, iceberg > all take science to be a body of knowledge we're chipping away at, so that one what is unknown slowly decreases with time |
-Question propagation: Knowledge generates ignorance. "Science is always wrong. It never solves a problem without creating 10 more." "Knowledge is a large subject. Ignorance is even larger." | -Question propagation: Knowledge generates ignorance. "Science is always wrong. It never solves a problem without creating 10 more." "Knowledge is a large subject. Ignorance is even larger." |
-Science/scientists advance by learning to ask better/deeper questions, refining ignorance, going after higher-level ignorance. | -Science/scientists advance by learning to ask better/deeper questions, refining ignorance, going after higher-level ignorance. |
Aaron's notes drawing from the talk and elsewhere: | Aaron's notes drawing from the talk and elsewhere: |
- Staurt's talk talks about motivation and designing courses around student motivation. Educational Psychology can help us here, particularly the work of Self-Worth Theory, pioneered by UCB's own Martin Covington. [[http://www.jstor.org/stable/1001615|LINK TO PAPER]] | - Staurt's talk talks about motivation and designing courses around student motivation. Educational Psychology can help us here, particularly the work of Self-Worth Theory, pioneered by UCB's own Martin Covington. [[http://www.jstor.org/stable/1001615|LINK TO PAPER]] |
- We should adopt a problem-oriented approach to teaching, all aspects of student work is coordinated around a seminal or ‘capstone’ problem which students work on for a significant amount of time, if not through an entire school term. Everything is drawn in harness with one end in mind, if not yet in sight: Solutions. | - His argument, and one that is supported by the video, is that we should adopt a problem-oriented approach to teaching: all aspects of student work is coordinated around a seminal or ‘capstone’ problem which students work on for a significant amount of time, if not through an entire school term. Everything is done towards creating solutions to relevant problems (even if the students don't necessarily know the problems at first). |
- How do we do this? Based on four ideas: first, insuring coherence and transparency; second, insuring grading equity; third, alliance-building and inclusion; and, fourth, providing inherently interesting tasks. | - How do we do this? Based on four ideas: first, insuring coherence and transparency; second, insuring grading equity; third, alliance-building and inclusion; and, fourth, providing inherently interesting tasks (interesting to both the instructor and the students). |
- Course objectives often tend to remain abstractions, with little justification for why what student must learn fits into a larger picture. Instead, have all aspects of student work be coordinated around the steps necessary to solve a central problem. | - Course objectives often tend to remain abstractions, with little justification for why what student must learn fits into a larger picture. Instead, with a problem motivated approach, all aspects of student work are coordinated around the steps necessary to solve a central real-world problem. |
- Alliance-building means establishing a partnership in which instructors and students together dedicate themselves to tackling meaningful problems or issues of enduring importance and complex enough to command the best that each has to offer. In short, problem solving can create a rallying point for like minds and talents. | - Alliance-building means establishing a partnership in which instructors and students together dedicate themselves to tackling meaningful problems or issues of enduring importance and complex enough to command the best that each has to offer. In short, problem solving can create a rallying point for like minds and talents. |
- In a problem-focused approach, the problem itself becomes the final arbitrary of ‘excellence’. The quality of student contributions can now be tied objectively to the question of how effective their work is in creating progress toward solutions judged against such absolute, merit-based criteria as practicality, creativity, and utility. | - In a problem-focused approach, the problem itself becomes the final arbitrary of ‘excellence’. The quality of student contributions can now be tied objectively to the question of how effective their work is in creating progress toward solutions judged against such absolute, merit-based criteria as practicality, creativity, and utility. |
- The theme of problem solving exudes a sense mystery and intrigue—it is said that everyone loves a mystery, and for this reason problem solving is potentially ‘reward rich’ in intrinsic payoffs that sustain task engagement. There is the pleasure of satisfying one’s curiosity and of making discoveries in the service of achieving something personally meaningful and worthwhile. | - The theme of problem solving exudes a sense mystery and intrigue—it is said that everyone loves a mystery, and for this reason problem solving is potentially ‘reward rich’ in intrinsic payoffs that sustain task engagement. There is the pleasure of satisfying one’s curiosity and of making discoveries in the service of achieving something personally meaningful and worthwhile. |
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=====Homework for next time===== | =====Homework for next time===== |
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Class will not meet next week. Prepare for Design-A-Section presentations, which will be given the next time we meet. | Class will not meet next week. Prepare for Design-A-Section presentations, which will be given the next time we meet. |