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Problem-Based Learning and Wireless Technology in the Science Classroom. George Watson ghw@udel.edu www.physics.udel.edu/~watson. Department of Physics and Astronomy College of Arts & Science University of Delaware. 125 th National AAPT Meeting Boise, Idaho Monday, August 5, 2002.
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Problem-Based Learning and Wireless Technology in the Science Classroom George Watsonghw@udel.eduwww.physics.udel.edu/~watson Department of Physics and AstronomyCollege of Arts & ScienceUniversity of Delaware 125th National AAPT MeetingBoise, IdahoMonday, August 5, 2002
Problem-Based Learning and Wireless Technology in the Science Classroom Part 1. Advances in Technology Part 2. Advances in Pedagogy Part 3. Need for Wireless Solution Part 4. Applications of Wireless
2002 The Way It Was... 1973 graphing calculators, laptops, gigabytes and gigahertz Computation
2002 The Way It Was... 1973 e-mail, voice-mail, chatrooms, FAX, pagers, cell phones, PDAs instant messaging, wireless connectivity Communication
2002 The Way It Was... 1973 Online Information: web catalogs, networked databases, Britannica Online, online newspapers, course websites, CMS Collections
Shifting Sand:Impacts of Technologyin Higher Education Computation and Calculation Communication and Collaboration Collections and Connections Wireless
Shifting Sand:Impacts of Wireless Technologyin Higher Education Anytime, Anyplace Access to Info Active Learning and Simulations In-class Interactivity (anonymous) CMS’s and Online Collaborations
Problem-Based Learning and Wireless Technology in the Science Classroom Part 1. Advances in Technology Part 2. Advances in Pedagogy Part 3. Need for Wireless Solution Part 4. Applications of Wireless
The question before us: Given the amazing advances in technology, the dramatic change in the first-year experience, and knowing what we know about our students, How can we best proceed in our classrooms?
One possible answer: The principal idea behind PBL is… Problem-Based Learning that the starting point for learning should be a problem, a query, or a puzzle that the learner wishes to solve. (Bould, 1985:13)
What is Problem-Based Learning? PBL is an instructional method that challenges students to “learn to learn,” working cooperatively in groups to seek solutions to real world problems. PBL prepares students to think critically and analytically, and to find and use appropriate learning resources.
What are the common features of PBL? Learning is initiated by a problem. Problems are based on complex, real-world situations. Information needed to solve problem is not initially given. Students identify, find, and use appropriate resources. Students work in permanent groups. Learning is active, integrated, cumulative, and connected.
PBL: The Process Students are presented with a problem. They organize ideas and previous knowledge. Students pose questions, defining what they know and do not know (learning issues). Students assign responsibility for questions, discuss resources. Students research learning issues. Students reconvene and explore newly learned information, refine questions.
The Problem-Based Learning Cycle Overview Problem, Project, or Assignment Mini-lecture Group Discussion Whole Class Discussion Preparation of Group “Product” Research Group Discussion
Problem-Based Learning and Wireless Technology in the Science Classroom Part 1. Advances in Technology Part 2. Advances in Pedagogy Part 3. Need for Wireless Solution Part 4. Applications of Wireless
Interactive Student Response Systems www.educue.com
The principal idea behind PBL is? A. PBL challenges students to learn to learn. B. Learning is initiated by a problem. C. Students work in permanent groups. Think/ pair/ share www.udel.edu/pbl/
Collaborative, reconfigurable workspace Flexible furniture Flexible equipment
Problem-Based Learning and Wireless Technology in the Science Classroom Part 1. Advances in Technology Part 2. Advances in Pedagogy Part 3. Need for Wireless Solution Part 4. Applications of Wireless
Silicon, Circuits, and the Digital Revolution SCEN103 at the University of Delaware www.physics.udel.edu/~watson/scen103/
Broad Course Objectives: Analyze simple electrical circuits to assess their function and effectiveness. State and describe fundamental scientific principles underlying modern electronic devices. Explain the basic operation of electrical circuits, simple semiconductor devices, and integrated circuits. Identify the contributions of science and technology to everyday life.
A Problem-Based Learning Approach to Simple Electrical Circuits Incorporating PBL problems Other collaborative exercises Hands-on laboratory exercises
PBL #1 Crossed Circuits Two roommates argue about perceived use of electrical energy;one uses the hairdryer too much and the other showers too long.Who should pay more towards the utility bill? Energy = power x time
PBL #2 A San Francisco Treat Electrical wiring plans are formulated for a building conversion in San Francisco using floorplans from “This Old House”. Parallel circuits Household wiring Power ratings of appliances
Problem-Based Learning and Physics:Developing problem solving skills in all students NSF DUE 00-89408 CCLI-EMD The problem-based learning (PBL) program initiated at the University for reforming undergraduate science teaching is being expanded beyond the University by the development of instructional models and materials made accessible to faculty worldwide through an online clearinghouse. The project is developing a database of problems, instructional models, evaluation tools, and web-based resources that effectively incorporate PBL across the content framework of introductory undergraduate physics courses. Materials are being collected and reviewed for a wide variety of introductory physics courses, for both science majors and non-science majors, across all levels of instruction and class enrollment. In addition to collecting existing problems and material, the project is implementing problem-writing workshops as an important element in developing the collection of PBL materials needed to cover the different curricula of physics at the college level. Selected clearinghouse problems will also be adapted to the high school setting. www.udel.edu/pblc/
Lab #3 Batteries and Bulbs Students work from the simplest possible circuit to the challenging circuit on the left and its companion on the right. Series and parallel combinations
Motivation for This Project Anywhere, anytime accessibility to ‘lab’. Faster, cheaper ‘what if?’ changes. When hands-on experiences in a physical laboratory are not available, computer simulations are often the next best option. For some topics, computer simulations can provide an environment for active learning that is just as rewarding as the traditional laboratory.
Implementation of This Project JavaScript and Java applets are often employed to implement computer simulations for learning that can be accessed over the web. Often overlooked are other software solutions that run from suitably configured web browsers -- Macromedia Flash is one such approach. We have created a simple circuit simulator written in Flash that provides an interactive experience for introductory students of electricity.
Features of the Circuit Simulator The current version provides a prototyping workspace drag-and-drop selection of resistors and batteries multimeters that can be configured to display current and/or voltage for each circuit element wire cutters and wire to complete and reconfigure circuits to carry out simulated experiments. a written and audio introduction to its use.
Demonstration(if time permits) http://www.udel.edu/present/showcase/watson/
Problems We Encountered with the Wireless Classroom Grin and bear it – a real issue with IT folks. Cabinet bolted to wall and diligent users. Laptop displays can be readily closed. Real – bought a bank of spare batteries. Worries about loss of network security; Worries about loss of laptop computers; Worries about distracted students; Worries about status of batteries;
Problem-Based Learning and Wireless Technology in the Science Classroom George Watsonghw@udel.eduwww.physics.udel.edu/~watson Department of Physics and AstronomyCollege of Arts & ScienceUniversity of Delaware 125th National AAPT MeetingBoise, IdahoMonday, August 5, 2002