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Levels of Inquiry Model of Science Teaching The Simple Pendulum Learning Sequence Dr. Carl J. Wenning Department of Physics Illinois State University.

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Presentation on theme: "Levels of Inquiry Model of Science Teaching The Simple Pendulum Learning Sequence Dr. Carl J. Wenning Department of Physics Illinois State University."— Presentation transcript:

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2 Levels of Inquiry Model of Science Teaching The Simple Pendulum Learning Sequence Dr. Carl J. Wenning Department of Physics Illinois State University

3 communication Levels of Inquiry Model of Science Teaching

4 communication Simple Pendulum Learning Sequence Discovery Learning: Students develop concepts and qualitative relationships. They characterize the system and identify measurable quantities such as mass, length, amplitude, period, and gravity. They “play” with varying pendulum configurations to find relationships between period and system variables.

5 Work Time Discovery Learning - – Characterize the system and identify measurable quantities (variables). – “Play” with different pendulum configurations to find simple relationships.

6 communication Simple Pendulum Learning Sequence Interactive Demonstration: Students predict and observe. (e.g., What happens to period if I double the mass? What happens if I double the amplitude? What happens if I double the length?). Following predictions, students make data tables of mass vs. period, amplitude vs. period, and length vs. period and draw conclusions.

7 Work Time Interactive Demonstration - What will happen when I double the mass, amplitude, length? – Predict – Verify

8 communication Simple Pendulum Learning Sequence Inquiry Lesson: Students participate in a teacher-conducted controlled experiment. Using stopwatches, meter sticks, and protractors (under constant “g ”), they collect data to determine the exact relationship between length and period.

9 Work Time Inquiry Lesson - Determine the relationship between length and period of a simple pendulum.

10 communication Simple Pendulum Learning Sequence Inquiry Lab (preparation): Teachers helps students see that the slope of the length vs. period graph can be related to the gravitational force constant, g, by using dimensional analysis.

11 Dimensional Analysis

12 communication Simple Pendulum Learning Sequence Inquiry Lab: Students design and conduct a controlled scientific experiment to determine the acceleration due to gravity, g. Use the best values of length and period. Determine how errors in length and period result in errors in g.

13 Work Time Inquiry Lab - Determine the acceleration due to gravity, g, using a simple pendulum.

14 Controlled experiment? Best values of length and period? How do errors in length and period affect g?

15 Best Values One-swing measurement? Average of several one-swing measurements? 1/10 of one 10-swing measurement? Average of several 10-swing measurements? Errors in representative values? – Range? – Mean deviation? – Standard deviation?

16 Error Propagation

17 communication Simple Pendulum Learning Sequence Real-world Applications 1: Students solve end- of-chapter “puzzles” applying the relationship for period and length to any of a number of situations. For example, “What is the period of a pendulum of a given length?” or any other combination of period, length, and value of g.

18 communication Simple Pendulum Learning Sequence Real-world Applications 2: Students solve real- world problems. For instance, (1) “Use Newton’s 2 nd law of motion and law of gravitation to determine the mass of Earth.” and (2) “Given a pendulum’s period, determine the radius of Earth for a given location.”

19 Work Time Use Newton’s 2 nd law of motion and law of gravitation to determine the mass of Earth.

20 communication

21 Work Time Given a simple pendulum’s period, determine the radius of Earth for a given location.

22 communication

23 Simple Pendulum Learning Sequence Hypothetical Inquiry: Not all topics within a given learning sequence have pure or applied situations. Can you think of any for a simple pendulum?

24 communication Why inquiry? – Students learn the content, processes, history, nature, and values of science. Why Levels of Inquiry? – By progressing through each of the different levels of inquiry, students learn increasingly sophisticated intellectual process skills – critical thinking, scientific reasoning, and experimental inquiry skills.

25 Resources: Levels of Inquiry – www.phy.ilstu.edu/pte/publications/ www.phy.ilstu.edu/pte/publications/ Student Laboratory Handbook – www.phy.ilstu.edu/slh/ www.phy.ilstu.edu/slh/ Dr. Carl J. Wenning wenning@phy.ilstu.edu

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