Difference between revisions of "Learn PhET"
Line 91: | Line 91: | ||
=Ideas for resource creation= | =Ideas for resource creation= | ||
− | + | To help students engage in science and mathematics through inquiry, PhET simulations are developed using the following design principles: | |
+ | #Encourage scientific inquiry | ||
+ | #Provide interactivity | ||
+ | #Make the invisible visible | ||
+ | #Show visual mental models | ||
+ | #Include multiple representations (e.g., object motion, graphs, numbers, etc.) | ||
+ | #Use real-world connections | ||
+ | #Give users implicit guidance (e.g., by limiting controls) in productive exploration | ||
+ | #Create a simulation that can be flexibly used in many educational situations | ||
=References= | =References= |
Revision as of 13:14, 23 February 2017
Introduction
PhET is a collection of simulations that can be integrated in classroom teaching-learning. You will look at two examples of simulations.
PhET provides fun, free, interactive, research-based science and mathematics simulations. You can test and evaluate each simulation to ensure educational effectiveness. These tests include student interviews and observation of simulation use in classrooms. The simulations are written in Java, Flash or HTML5, and can be run online or downloaded to your computer. All simulations are open source (see our source code). Multiple sponsors support the PhET project, enabling these resources to be free to all students and teachers.
ICT Competency
Subject (Science and Maths) resource creation
Educational application and relevance
PhET simulations are very flexible tools that can be used in many ways. Here, you will find videos and resources for learning about effective ways of integrating PhET simulations into your class.
Version
PhET Version - 1.1.7
Configuration
You can find PhET under Applications> Education> Science. PhET is an educational resource that contains computer demonstrations of experiments and activities. When you click on Play with sims – it will open simulations in various subjects. You just click on Physics and scroll down to the simulation on Pendulum Lab.
When you want to open a simulation, click on the green rectangle which says “Run Now”.
If you are not find Phet under Applications> Education> Science, Then you need to configure Phet application to your system. follow this steps to configure.
System tools → preferences → main menu → Select science → Click on NEW ITEM → Name – PhET → Command- firefox /opt/PhET/index.html → OK
Overview of Features
PhET is virtual lab , It has many subject based virtual labs included - Chemistry, Physics, biology and Maths .
Visual Aids and Demos By using sims as an animated illustration, instructors find that it is easier to communicate effectively with their students. The sims show dynamic processes and these can be slowed down, sped up, or paused,depending on the concept being shown; the invisible is made visible; and multiple representations are linked.Finally,the sims are easily adjusted by the instructor during the discussion. These features often make sims more effective for learning and more practical to use than static drawings or live demos.
Student-driven Discussions PhET is designed to help students develop science inquiry skills by exploring cause - and - effect relationships. Instructors can facilitate whole -class inquiry by creating a scenario in the simulation, and asking students to predict the effect of manipulating variables. In such classrooms, students often spontaneously ask many more, and deeper questions. It is common for students to ask a series of “what - if” questions and direct the teachers’ use of the sim .
Other similar applications
Virtual Laboratory
Development and community help
Working with the application
Functionalities
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Step 1 - 1. Notice where the pendulum is – is it higher, lower or at the same level as the central position?
2. Notice the graph – what are the two variables on the bar chart? 3. What do you think will happen to the pendulum next? |
Step 2 - 4. Notice where the pendulum is – has it moved? What can you say about its movement?
5. Notice the graph – what are the variables on the bar chart? What are the values of PE and KE as compared to total energy? |
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Step 3 - 6. Notice where the pendulum is – has it moved? Is it higher or lower than the central position?
7. Did you notice anything about the speed of the bob as it moves from one extreme position to another? 8. Notice the graph – what are the variables on the bar chart? 9. What has happened to the values of the KE and PE as compared to total energy? 10. What do you think is happening? Is this what you will think will happen when you try this experiment? Why? Why not? What is different? |
Step 4 - 1. Notice where the pendulum is. This extreme position to the right is at a different height than. Why? What role does friction play and where does it come from
2. Look at the graph – what are the variables in the bar chart? Where has the thermal energy come from? What do you expect will happen to the simple pendulum? |
File formats for creation
Saving the file
PhET Simulation does not have its own file format, which you can save the web link in .html formate. However you can create image files of the PhET you are working on, by using the screenshot application.
Export and publishing files
You can create an image file from PhET Simulaion through the using the screenshot application.
Advanced features
Installation
Method of installation | Steps |
---|---|
From Ubuntu software Centre | Steps - Not avilable |
From Terminal | Steps - |
From the web | Steps - |
Web based registration | Steps - https://phet.colorado.edu/ |
The application on mobiles and tablets
PhET can also be downloaded for the mobile from Google Playstore
Ideas for resource creation
To help students engage in science and mathematics through inquiry, PhET simulations are developed using the following design principles:
- Encourage scientific inquiry
- Provide interactivity
- Make the invisible visible
- Show visual mental models
- Include multiple representations (e.g., object motion, graphs, numbers, etc.)
- Use real-world connections
- Give users implicit guidance (e.g., by limiting controls) in productive exploration
- Create a simulation that can be flexibly used in many educational situations