George Watson

University of Delaware

ghw@udel.edu

Technology in a PBLScience Course for

Non-Science Majors

PBL2002: A Pathway to Better LearningBaltimore, MDJune 17, 2002

SCEN103 at the University of Delaware

http://www.physics.udel.edu/~watson/scen103/

Silicon, Circuits, and the Digital Revolution

Designed to promote scientific and computer literacy and awareness, SCEN103 gives students an opportunity to leverage their interests in everyday devices and high-tech objects into a study of fundamental science concepts.

Live demonstrations, in-class group explorations of technology applications, and daily work with the Internet are essential elements of SCEN103.

The course:

SCEN103 in Spring 2000 was an Honors colloquium designed to introduce first-year students to some of the science behind high technology.

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Working in small groups, students also created websites devoted to science and technology topics.

This year’s colloquium was designed as a pilot Pathways Course during the discussion of General Education Reform at UD.

Much of the learning in Spring 2000 SCEN103 was done with problem-based learning.

A key feature of the writing-intensive work for this colloquium was the student’s setup and development of a personal website.

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Broad Course Objectives:

Explain the basic operation of electrical circuits, simple semiconductor devices, and integrated circuits.

Analyze simple electrical circuits to assess their function and effectiveness.

State and describe fundamental scientific principles underlying modern electronic devices.

Identify the contributions of science and technology to everyday life.

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Communicate technical ideas orally and in writing.

Evaluate the information content of Internet resources.

Use graphical and other multimedia elements effectively in a webpage.

Create an informative and organized website devoted to presenting a topic of technical interest from various perspectives.

Interpret graphical data and construct graphs to communicate ideas.

Construct technical information into a logical framework for decision making.

Establish a frame of mind where quantitative reasoning is embraced.

Work effectively in a group to solve complex problems.

Access timely, relevant, and authoritative information for problem solving.

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Problem-Based Learning in SCEN103

SCEN103 relies heavily on PBL with students working collaboratively in groups to solve real-world problems.

Students learn to apply simple scientific concepts, find and evaluate scientific and technical information, and communicate ideas about science and technology to others.

Discussions led by the course instructor, plus supplementary lectures, help to give a context and conceptual framework to the problems.

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Why PBL in SCEN103?

The rate of generation of new information in the scientific and technical sectors is truly staggering.

Information becomes outdated rapidly and is updated constantly; much of what will be needed to know in the workplace following graduation has not been generated yet!

Thus identifying when new information is needed, where to find it, how to analyze it, and how to communicate it effectively are essential skills to learn in college.

An important result of PBL is that while problems are used to identify what to learn, the process of learning "how to learn" is also developed.

This method of instruction has been chosen to help develop skills important for success both in the students’ undergraduate education and in their professional life following graduation. link

What is effective learning in SCEN103?

Effective learning is much more than memorizing information to answer questions on examinations.

Learning is a process that culminates in the ability:

to ask the right questions and frame good problems,

to acquire information and evaluate sources of information,

to critically investigate and solve problems,

to make choices among many alternatives,

to explain concepts to others (both orally and in writing), and

to generalize to new situations.

Problem-Based Learning helps develop these abilities!

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A Problem-Based Learning Approachto Simple Electrical Circuits

Incorporating PBL problems,

Other collaborative exercises, and

Hands-on laboratory exercises.

Link to list of activities and assignments for SCEN103 Spring 2000

Link to schedule of classes for SCEN103 Spring 2000

Crossed Circuits

PBL #1

Energy = power x time

Two roommates argue about perceived use of electrical energy. Who should pay more towards the utility bill?

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Hairdryers: How much power?

Lab #1

Power = current x voltage

Students bring in their hairdryers and test all settings. A relationship is discovered among the three circuit quantities while checking the manufacturers’ claims.

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A San Francisco Treat

PBL #2

Parallel circuits

Household wiring

Power ratings of appliances

Electrical wiring plans are formulated for a building conversion using floorplans from a “This Old House” project.

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Electrical Energy Use in the World?

Exercise #1

Globalization for Pathways Course objective

Student groups use the CIA’s online World Fact Book to accumulate regional electrical energy use and investigate sources of discrepancies.

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PBL #3

Resistance and Ohm’s law

Mark and Tim Allen rewire a toaster for more power by using hairdryer parts.

More Power!

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Resistivity and Play-Doh

Lab #2

Resistance of a cylinder (wire)

Students roll out cylinders of various diameters and find a relationship among resistance and geometric factors.

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Spring Break Adventure

PBL #4

Synthesis of cylinder resistance,

Ohm’s law, and

Electrical power

Students investigate the circuit concepts behind the operation of two familiar battery testers.

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Batteries and Bulbs

Lab #3

Series and parallel combinations

Students work from the simplest possible circuit to the challenging circuit on the left and its companion on the right.

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Penetration rates of major consumer products in U.S. households

Exercise #3

Historical aspects of electrical use link

Lights Out!

PBL #5

Batteries and internal resistance

Energy capacity

Circuit Design

Students attempt to design a flashlight from a 6V lantern bulb and two AAA cells that will last for five hours.

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Computer SimulationsA wide variety of educational games exist that represent a PBL approach to learning <www.legacyinteractive.com> :

emergency room www.trauma.orgvirtual hospital www.vh.orgarchaeological dig dig.anthro.niu.eduhalls of justice www.objection.com

Interactive Java applets and Flash animations are also an excellent way to bring the power of technology to the PBL classroom.

One of my own is a Flash Circuit Simulator that emulates a laboratory for studying the properties of electric circuits.

Motivation for This Project

Faster, cheaper ‘what if?’ changes.Anywhere, anytime accessibility to ‘lab’.Wireless technology for collaborative learning.

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 providesa prototyping workspacedrag-and-drop selection of resistors and batteriesmultimeters that can be configured to display

current and/or voltage for each circuit elementwire cutters and wire to complete and

reconfigure circuits to carry out simulated experiments.

a written and audio introduction to its use.

As initially presented to the students

Running a circuit simulation…

Demonstration

http://www.udel.edu/present/showcase/watson/

Wireless Laptop Carts

George Watson

University of Delaware

ghw@udel.edu

Technology in a PBLScience Course for

Non-Science Majors

PBL2002: A Pathway to Better LearningBaltimore, MDJune 17, 2002