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16: MW Sandbox: Demo MW capacity This activity is used with a podcast on the Molecular Workbench. It contains two simple models and a few controls. The second model includes light interactions. Author: itest itest, Probes: none, Models: Molecular Workbench, Display Status: Public 30 people have tried this Activity. |
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25: Temperature of mixing water (TEEMSS) In this activity, you will investigate how to predict the temperature when two cups of water at different temperature are mixed. Author: itest itest, Probes: Temperature, Models: none, Display Status: Public 24 people have tried this Activity. |
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26: Heat and light from electricity In this activity energy will be moved from batteries to holiday bulbs and resistors, and the temperature changes will be monitored. Author: itest itest, Probes: Temperature, Models: none, Display Status: Public 21 people have tried this Activity. |
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27: Heating by hitting In this activity students measure how much heat is generated when a lump of clay is hit with a weight. Author: itest itest, Probes: Temperature, Models: none, Display Status: Public 39 people have tried this Activity. |
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39: Mass Effect on Diffusion 2 This model activity will allow you to investigate diffusion with atoms and molecules of different masses. Author: itest itest, Probes: none, Models: Molecular Workbench, Display Status: Public 29 people have tried this Activity. |
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42: Brownian motion This activity uses a Brownian Motion model to provide an insight into the atomic nature of all matter. Author: itest itest, Probes: none, Models: Molecular Workbench, Display Status: Public 25 people have tried this Activity. |
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43: Diffusion This activity allows you to experiment with a model to investigate diffusion. Author: itest itest, Probes: none, Models: Molecular Workbench, Display Status: Public 56 people have tried this Activity. |
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47: Feeling and measuring temperature This activity explores how and why the feeling of temperature is different from its measurement, using a temperature sensor and a heat flow model. Author: itest itest, Probes: Temperature, Models: NetLogo, Display Status: Public 34 people have tried this Activity. |
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51: Collision heat model This activity uses a model of a hammer colliding with a solid to explore what happens to the molecules. Author: itest itest, Probes: none, Models: Molecular Workbench, Display Status: Public 26 people have tried this Activity. |
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52: Introduction to crystals In this activity you will explore aspects of the makeup of crystals. Author: itest itest, Probes: none, Models: Molecular Workbench, Display Status: Public 66 people have tried this Activity. |
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54: Heat propagation This activity allows you to investigate how heat transfers through a crystal. Author: itest itest, Probes: none, Models: Molecular Workbench, Display Status: Public 30 people have tried this Activity. |
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55: Molecular crystals This activity investigates how melting molecular crystals affects their structure. Author: itest itest, Probes: none, Models: Molecular Workbench, Display Status: Public 51 people have tried this Activity. |
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56: Reaction time In this activity you will measure how fast you can react to three different cues: by sight, by sound, and by touch. Author: itest itest, Probes: none, Models: Light Reaction Time, Display Status: Public 51 people have tried this Activity. |
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58: Latent heat This activity allows you to investigate latent heat during a phase change. Author: itest itest, Probes: none, Models: Molecular Workbench, Display Status: Public 33 people have tried this Activity. |
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59: Phase Changes of Water This activity allows you to investigate potential and kinetic energy changes during a phase change. Author: itest itest, Probes: none, Models: Molecular Workbench, Display Status: Public 44 people have tried this Activity. |
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61: Mixing with water This activity will allow you to compare the polar or non-polar property of a molecule that relates to its solubility in water. Author: itest itest, Probes: none, Models: Molecular Workbench, Display Status: Public 13 people have tried this Activity. |
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63: Tree of Life - Plants This activity allows you to explore important biological plant molecules. Author: itest itest, Probes: none, Models: Molecular Workbench, Display Status: Public 75 people have tried this Activity. |
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64: Galvanic skin response Build a "lie detector" based on skin resistance. Author: itest itest, Probes: Raw Voltage, Models: none, Display Status: Public 42 people have tried this Activity. |
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66: Complex sounds This activity explores the complex characteristics of common sounds. Author: itest itest, Probes: none, Models: none, Display Status: Public 48 people have tried this Activity. |
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67: How loud, how high? This activity explores the frequency and amplitude of sound waves. Author: itest itest, Probes: none, Models: none, Display Status: Public 38 people have tried this Activity. |
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Mac OS X Note: If you are using Java 1.5 on MacOS 10.4 or 10.5 you will almost certainly need to run some version of our Fix MacOS Java 1.5 Web Start Scripts once on each computer you run the Concord SAIL-OTrunk activities on. If you update Java on your Macintosh you will need to fix this problem again. The problem appears on Mac OS X computers when starting a Java Web Start program you have run before -- if a jar file needs to be updated the download process will freeze without completing.