A Balance – Teacher & Researcher phet.colorado.edu Hewlett Foundation King Saud University PhET Interactive Simulations Designing research studies around.

Slides:



Advertisements
Similar presentations
Critical Reading Strategies: Overview of Research Process
Advertisements

A Balance phet.colorado.edu Hewlett Foundation King Saud University PhET Interactive Simulations Effective Levels of Guidance for Students Engagement and.
Experiential Learning Cycle
Non-Linguistic Representation Web 2.0 Tools Helping students understand and represent knowledge non- linguistically is the most under-used instructional.
Establishing a Culture of Achievement Planning for Success: lesson planning, learning styles and teaching strategies.
POGIL vs Traditional Lecture in Organic I Gary D. Anderson Department of Chemistry Marshall University Huntington, WV.
It defines acceptable evidence of student’s attainment of desired results. It determines authentic performance tasks that the student is expected to do.
Everything you need to know in order to set up your Reader’s Notebook
PER User’s Guide. Development of the PER User’s Guide: Identifying key features of research-based pedagogical tools for effective implementation Sam McKagan.
Introductions - Prepare your answers while we wait for everyone to join us. I am ________________________________(Your name) I teach _________________________________.
Agenda Opening activity (15 min) I-AIM Revisit framework (15 min) Sound activities (30 min) Discussion (20 min) Literacy Integration Texts in the classroom.
EXPLORING PURPOSE AND AUDIENCE WITH MIDDLE LEVEL WRITERS Reasons to Write Alisha Bollinger – 2015 Nebraska Reading Conference.
Planning for Inquiry The Learning Cycle. What do I want the students to know and understand? Take a few minutes to observe the system to be studied. What.
Flo Turkenkopf Packer Collegiate Institute Brooklyn, NY Computational vs. Conceptual: The Best Approach to Teaching 9 th Grade Physics.
Teaching Strategies for Instructors of the Physical Sciences UNC Orientation for New Graduate Students Fall 2001 Presented by Duane Deardorff Director.
Personal Epistemology and Student Resistance to Interactive Lecture Demonstrations Guy Ashkenazi & Rachel Zimrot Department of Science Teaching The Hebrew.
Learning to Explain: Writing & Peer Review Techniques Laurie Burton Western Oregon University MAA PREP Active Learning Workshop July 9, 2003 Wednesday:
Basic Scientific Writing in English Lecture 3 Professor Ralph Kirby Faculty of Life Sciences Extension 7323 Room B322.
An Outline Of Direct Instruction
Raising Maori and Pasifika Achievement in Geography Jane Evans Social Sciences Facilitator Team Solutions September 2014.
The Physics Education Technology Project: Exploring Easy and Effective Ways to Use PhET's Web-Based Interactive Simulations AAPT.
Strategies to Promote Motivation in the Mathematics Classroom
Creativity? Is that what they’re after?. Creativity to go … …Radical ? …Regular ? …Specialist ? …General ?
Training Math Tutors To Tutor Developmental Math Students
ATTENTION LANGUAGE LEARNERS ! THE SENIORS’ GUIDE FOR SUCCESS.
Science Inquiry Minds-on Hands-on.
PhET Sims for Science Inquiry: Free, researched, web-based Ariel Paul
PhET Simulations What’s New in Chemistry: Free, Researched, Web- Based Resources Trish Loeblein and Emily Moore PhET Interactive Simulations, University.
Teaching and Learning Physics: Week 2 9/8/2009J. Overhiser/ TIR Cornell University1 Objective: By the end of this class you should be able to describe.
Introduction to Science: The Scientific Method
Robert W. Arts, Ph.D. Professor of Education & Physics University of Pikeville Pikeville, KY Presented at the Spring Meeting of the Kentucky Association.
Human Learning Aeman Alabuod. Learning Theory it is conceptual frameworks that describe how information is absorbed, processed, and retained during learning.
Communicating Ocean Sciences to Informal Audiences (COSIA) Session 3 Teaching & Learning.
Empowering Students and Teachers for Optimal Learning.
Carts & Horses in the Collaborative, Social Space Deborah Keyek-Franssen Director, Academic Technology Unit Office of the GPB & CTO University of Colorado.
Lecture 16. Train-The-Trainer Maximize Learning Train-The-Trainer.
Elementary School Science: Emphasizing the Basics Presented by Frank H. Osborne, Ph. D. © 2015 EMSE 3123 Math and Science in Elem. Ed.
The Process of Science Science is the quest to understand nature.
INVESTIGATIVE SCIENCE LEARNING ENVIRONMENT (ISLE) Eugenia Etkina Alan Van Heuvelen Rutgers University Moscow, Idaho, April 1st, 2011
Centre for Mathematics Education The problematic nature of Teacher Development: Specifically the Effective use of Interactive White Board Frank Eade.
The Scientific Method The Scientific Method. What is Science? Study of the natural and physical world based on facts learned through experiment and observation.
Planning and Integrating Curriculum: Unit 4, Key Topic 1http://facultyinitiative.wested.org/1.
Scholarship of Teaching and Learning Tuesday, June 24, 2014 Strategies for Research and Scholarship Karen M. Kortz, Community College of Rhode Island Carol.
COSEE California Communicating Ocean Sciences Session 3: Teaching and Learning.
Good Morning! Let’s start with some science!. What’s our goal here? Provide an example of a science lesson with literacy and dialogue strategies integrated.
UTeach STEP 1- Class #2  Welcome!  Please sign in  Pick up your folder and name card  Find your schedule & sit with your partner  Sign out a computer.
Ariel Paul PhET’s Future: Enhanced Teacher Resources, HTML5, and Touch!
Constructed Response Developing this writing practice as part of ongoing classroom assessment The value of constructed response is that it is teaching.
Facilitate Group Learning
Lecture # 19 SCIENCE 1 ASSOCIATE DEGREE IN EDUCATION Force and motion continue ………
A special partnership between the Georgia Department of Education and the Educational Technology Training Centers in support of the 8 th Grade Physical.
Puzzles - Try These Relevance to teaching and learning mathematics?
EMBEDDING INTERACTION IN THE ONLINE CLASSROOM Dr. Dana K. Whippo National Economics Teaching Association November 2015.
 In this packet we will look at:  The meaning of acceleration  How acceleration is related to velocity and time  2 distinct types acceleration  A.
Detailed Agenda 1.5Do NowWhat makes learning and teaching science unique? Write, then share out. I expect many CMs to say things like labs, exploration,
Performance Task Overview Introduction This training module answers the following questions: –What is a performance task? –What is a Classroom Activity?
PSY 219 – Academic Writing in Psychology Fall Çağ University Faculty of Arts and Sciences Department of Psychology Inst. Nilay Avcı Week 9.
LITERACY-BASED DISTRICT-WIDE PROFESSIONAL DEVELOPMENT Aiken County Public School District January 15, 2016 LEADERS IN LITERACY CONFERENCE.
Chapter 1 What is Biology? 1.1 Science and the Natural World.
Implementing a Writer’s Workshop
Melissa Horn Katie Laver Jody Shaughnessy. Proficient readers use a number of different cognitive strategies in the process of interacting with texts.
UTeach STEP 1- Class #2  Welcome!  Please sign in  Pick up your folder and name card  Find your schedule & sit with your partner  Sign out a computer.
Chapter 2 Notes Ms. Sager. Science as Inquiry What is Science? – Word derived from Latin – means “to know” – A way of knowing – How to answer questions.
Good Afternoon! Have you turned in your Gattaca Assignment? Have you turned in your Chromosome Face Lab? Today you will need a piece of notebook paper.
Design strategies for research-based activities Joshua S
J.S Virdi HOD Physics, DPS R. K Puram
Facilitation guide for Building Team EQ skills.
U.S. Govt & Politics Course
Lesson 35: Compare different forms of a text
Presentation transcript:

A Balance – Teacher & Researcher phet.colorado.edu Hewlett Foundation King Saud University PhET Interactive Simulations Designing research studies around PhET Interactive Simulations NSF University of Colorado

PhET Team Scientists, teachers, professional programmers

Introduction Learning TheoriesLearning Theories –Constructivism –Modes of engagement Why simulations provide a unique environment for learning and researchWhy simulations provide a unique environment for learning and research Examples of research PhET has doneExamples of research PhET has done –In class –Lab –Types of guidance

A train crosses a 100 m bridge at 5 m/s. After crossing the bridge it accelerates at 2 m/s 2 for 10 seconds to reach its normal cruising speed.A train crosses a 100 m bridge at 5 m/s. After crossing the bridge it accelerates at 2 m/s 2 for 10 seconds to reach its normal cruising speed. 1.How long does it take the train to cross the bridge? 100 m / 5 m/s = 20 seconds 2.Just after crossing the bridge, what is the train’s velocity? 5 m/s 3.What is the train’s final velocity? V f =v o + at = 0 m/s + 2 m/s 2 10s = 20 4.What is the train’s average velocity from the start of the bridge until it reaches cruising speed? V avg = (V f -v o )/t Direct Instruction First tell how to do problems, then

Research says…. Found that students do not engage in their homework or laboratories as a scientist would.Found that students do not engage in their homework or laboratories as a scientist would. –Do not investigate, explore, ask questions, make connections, and deduce the rules. –Instead they just answer what has been asked –Transfer and retain little. Why?Why? –Students don’t know how to be a scientist? –Students don’t care? In a hurry. –Underprepared?

Many suggested pure discovery as an alternative.Many suggested pure discovery as an alternative. –Here is a compass, magnet, battery, light bulb and wire. Play with them and figure out how to make the light bulb light and if and how the magnet can affect the light bulb. –Give grade school students paper, paper clips and a sink full of water. Build a boat that can hold the most paper clips. Pure Discovery

Research Says… Pure discovery students may learn less than with cookbook labs! (Mayer 2004)Pure discovery students may learn less than with cookbook labs! (Mayer 2004) –Memory overload, confused without directions, frustrated, lots of false starts. –Students don’t know what is important or what they have learned.

Learning Theories Constructivism - Students need a framework of the main ideas to build knowledge on. (Bransford et al 1999)Constructivism - Students need a framework of the main ideas to build knowledge on. (Bransford et al 1999) An active process where students are active sense makers – cognitive not behavioral. –Direct Instruction - no framework –Pure Discovery - about 500 years –Cognitive load (Sweller) –Contrasting Cases

Learning Theories Performance Mode vs. Learning Mode (Dweck)Performance Mode vs. Learning Mode (Dweck) –Set of problems at their level –Set of problems just out of reach –Reaction depends on their view of intelligence Math frame versus sense making frame (Bing & Redish)Math frame versus sense making frame (Bing & Redish) Motivation. What is the game?Motivation. What is the game? –The way the problem is set up determines the mode students engage in.

Unique Environment for Learning and Research ResearcherResearcher –Common Visualization & probe into student brain “See” student thinking“See” student thinking Watch student actions even if quietWatch student actions even if quiet – Common Vocabulary Students use words from the simStudents use words from the sim Student shows what the words mean to themStudent shows what the words mean to them If students don’t know the word, they use the sim to show the interviewer what they mean.If students don’t know the word, they use the sim to show the interviewer what they mean.

Unique Environment for Learning StudentStudent –Fun and Engaging (not too fun!) –Interactive and animated (simulate real equipment) –The Invisible is Visible –Multiple Representations (macro & microscopic, graphs, math, counters etc…) –Minimal Guidance (text, external), but nonzero! –Balanced Challenges – little puzzles and clues attainable, build up to understanding the underlying concept.attainable, build up to understanding the underlying concept.

Unique Environment for Learning StudentStudent –Exploration via their own questioning –Look for what is missing and investigate –Development of Expert-like Framework –Knowledge has more connections and common visualization ideal for all learning

What are your research questions?

Two questions were asked about the velocity of different points on the string. A B C snapshots at different times Wave-on-string simulation vs. Tygon tube demo Follow-up Concept Test: Lecture (Non-science Majors Course)

vs. Finkelstein, Adams, Perkins, Keller p < Lab (Algebra-based Physics) Simulation vs. Real Equipment

Build a circuit with REAL equipment. Explain what happens when you create a break and why? Lab (Algebra-based Physics)

Build a circuit with REAL Equipment Time (min) CCK Tradtl Timing Lab (Algebra-based Physics)

CCK Minimal questions – TA spent most of their time watching.Minimal questions – TA spent most of their time watching. Trying all sorts of different configurations and discussing what might happen.Trying all sorts of different configurations and discussing what might happen. Question their physics if sim shows something different than they expect.Question their physics if sim shows something different than they expect. How do they feel about it? (“Affective”) Traditional Many questions, TAs cannot keep up!Many questions, TAs cannot keep up! Nervous about getting electrocuted or damaging the equipment.Nervous about getting electrocuted or damaging the equipment. Looking for the correct answer ONE time.Looking for the correct answer ONE time.

Quantum Mechanics Course “I definitely not only enjoyed the simulations, but I'd go as far to say that the simulations taught me the most about the course because I could really visualize the inner workings of the physics processes that were going on.” “I thought the simulations were great. It helped me to gain intuition about the topic. This is especially useful in quantum mechanics where it is not normally possible to directly observe the described phenomena.”

Student Comparisons New study – TWO years later!! 2 separate labs2 separate labs 1 st used CCK1 st used CCK 2 nd week real equipment2 nd week real equipment Students asked to compare the two labs – N~300Students asked to compare the two labs – N~300 Sim better for usage64% Preferred Real22% Liked Both42%

Simulation Interviews Think-aloud styleThink-aloud style –Does not mean ask student what they think of the sim! Minimal guidance - limited to 1 or 2 conceptual questions.Minimal guidance - limited to 1 or 2 conceptual questions. –Prediction – open conceptual question(s) –Play –Revise prediction 30 to 60 minutes per simulation30 to 60 minutes per simulation 4-6 interviews per version of sim4-6 interviews per version of sim –20+ for specific projects 300+ with over 100 students300+ with over 100 students

Minimal Guidance Goes against our instincts… We know pure discovery doesn’t work! Why does minimal guidance work?

Appropriate Scaffolding Appropriate Scaffolding applies to all learning Simulations provide scaffolding of the material.Simulations provide scaffolding of the material. –Students see only the parts needed to understand and build a mental framework. –Controls are limited to features that affect the phenomena. –Contrasting cases (analogies) are provided.

Levels of Guidance in Interviews GuidedGuided Gently Guided (GG)Gently Guided (GG) Driving Questions (DQ)Driving Questions (DQ) No instructionNo instruction

Gently Guided (GG) Before opening the Sim: “Can a magnet effect an electron?” “What are some ways you can make a magnet?” Open the sim: 1. In the “Bar Magnet” tab, identify the things on the screen and in the controls in the control panel (at the right.) a.What does the “Strength” slider do? b.What does the “Field Meter” do?” … 2. Go to the “Pickup Coil” tab. Identify the things on the screen and in the control panel. a. How does motion of the magnet affect the electrons in the coil of wire?

Driving Questions (DQ) Open Conceptual Questions Before opening the sim “Can a magnet effect an electron?” “What are some ways you can make a magnet?” Open the sim: “Play with everything and talk aloud as you do this.”

GG DQ 8 students Student Mode: Students answer question and wait for the next. “OK, continue?” “Is that sufficient for 2” Limited framework dev. Often don’t tie pieces together. If forget to mention crucial part of the sim, students miss it. 4 students Engaged Exploration: Explore via their own questioning “Oh, I wasn’t expecting that” “I was looking around to see if it was an effect of having more wires.” Must be open conceptual type questions

What did students notice? Explored Just noticed Not noticed Elements mentioned in the GG activity.

What did students notice? Explored Just noticed Not noticed Elements not mentioned in the GG activity.

Missing Pieces (MP) With GG activity students were in “student mode”. If something wasn’t mentioned, they didn’t explore it.With GG activity students were in “student mode”. If something wasn’t mentioned, they didn’t explore it. To test this we created a Missing Pieces (MP) activity.To test this we created a Missing Pieces (MP) activity. –Two questions were omitted from the GG activity –Three sim elements were mentioned in these two questions.

What did students notice? Missing Pieces (MP) Explored Just noticed Not noticed Elements omitted from the GG activity. MP* - Anomalous student removed MP* - Anomalous student removed.

Research says…. Found that students do not engage in their homework or laboratories as a scientist would.Found that students do not engage in their homework or laboratories as a scientist would. –Do not investigate, explore, ask questions, make connections, and deduce the rules. –Instead they just answer what has been asked –Transfer and Retain little. Why?Why? –Students don’t know how to be a scientist? –Students don’t care? In a hurry. –Underprepared?

Conclusion phet.colorado.edu phet.colorado.edu Provide scaffolding Mental FrameworkMental Framework –Implicit scaffolding and contrasting cases in the simulation – Balanced Challenges –Explore items they were ready to learn about Engaged ExplorationEngaged Exploration –Open Conceptual questions Explore via their own questioningExplore via their own questioning Scientist-like explorationScientist-like exploration

Workshop Goals To Incorporate research and teaching so that work on each compliments the other. Our Goals for today: Provide ideas on how sims can be used (lecture, homework, lab, in-class activities). Provide ideas on how sims can be used (lecture, homework, lab, in-class activities). Familiarity with 4 mainstream U.S. physics journals. Familiarity with 4 mainstream U.S. physics journals. Ideas about useful diagnostic tools and type of data that can show effectiveness of implementation. Ideas about useful diagnostic tools and type of data that can show effectiveness of implementation. Start conversations with colleagues and provide resources Start conversations with colleagues and provide resources Identify a project(s) for the next year with possible collaborator.

Journal Activity I: What is different about each? What can go in each?

Journal Activity I: Compare: The Physics Teacher The Physics Teacher American Journal of Physics American Journal of Physics PER Conference Proceedings PER Conference Proceedings Physical Review Special Topics Physical Review Special Topics WG

Journal Activity II: Compare research questions/data Where would your ideas fit? Where would your ideas fit? Discuss things already tried in your course(s). Discuss things already tried in your course(s). Think about something done that could be written up. Think about something done that could be written up. Test your ideas out on your partner? Test your ideas out on your partner? If it’s interesting to your partner and they are very curious about the details, that’s a good sign that it’s interesting enough to write up. If it’s interesting to your partner and they are very curious about the details, that’s a good sign that it’s interesting enough to write up.

Evidence What evidence do you have that your project worked? What evidence do you have that your project worked? What evidence do you wish you collected? How can you get this next time? What evidence do you wish you collected? How can you get this next time? What Journal can it go in … right now? after you have the data that you want? What Journal can it go in … right now? after you have the data that you want?

What could you publish? Examples of articles for each journal Examples of articles for each journal WG

Create a study Think about a possible study to incorporate PhET sims. Think about a possible study to incorporate PhET sims. Either new sims and/or in a new way. Either new sims and/or in a new way. What is your research question? What do you expect the sim to do for the students or for you? What is your research question? What do you expect the sim to do for the students or for you? What data will you collect to measure the impact? What data will you collect to measure the impact? Collaborate if possible – e.g. Each do it at your institution and then compare results.

Sim study ideas What is the research question? What will it accomplish? What is the research question? What will it accomplish? What is the evidence? What is the evidence? WG

Gently Guided (GG) Archie Paulson crafted the activity through a series of a eight interviews using the simulation.Archie Paulson crafted the activity through a series of a eight interviews using the simulation. The goal was to help the students play with all objects necessary to learn about Faraday’s Law.The goal was to help the students play with all objects necessary to learn about Faraday’s Law.