![]() Rates of Reactions with Concentration of Reactant 1 (Blue), Temperature and Amount and Surface Area of Catalyst (Yellow) JavaScript Simulation Applet HTML5 ![]() Projectile Frog Dragonfly Game JavaScript HTML5 Applet Simulation Model Projectile Shot Put Game JavaScript HTML5 Applet Simulation Model Simulation for Penetrating Abilities of Radioactive Emissions - Uses and Hazards of Radioactivity Ģ0230327 Brown Bag Educators as Designers of Simulation using Easy JavaScript Simulation authoring toolkit (EJSS)Ģ0230302 Sharing of Analytics x Interactives to Physics Unit O and A levelĭigital Interactive for Energy Transfers and Stores Rotating Rectangular Block JavaScript HTML5 Applet Simulation ModelģD Wave Machine JavaScript HTML5 Applet Simulation Model by Wolfgang Christian and Loo Kang WEE Projectile Frog Game JavaScript HTML5 Applet Simulation Model Standing waves in a fixed end String JavaScript HTML5 Applet Simulation Model Magnet Falling in a Coil with Tube Simulator JavaScript Simulation Applet HTML5 ![]() end faqĮvaporation (Pressure, Surface Area, Temperature, Humidity) for Primary School HTML5 Applet JavaScriptĮvaporation (Pressure, Surface Area, Temperature, Humidity, Presence of Wind) for Secondary School HTML5 Applet JavaScriptīlock Mass 0.1 kg Cooling and Heating Curve with Different Materials and Surface Area Model Super Stunter Boomering Plane-frame.gifĬontact: This email address is being protected from spambots. The coefficients of these quantities were different in both parts of the motion to account for variation in the angle of attack of the plane. The dynamic model accounted for variable lift and drag forces. Part 1 describes motion from t=0s to t=0.634s while part 2 describes motion from t=0.634s to t=1.068s. This file attempts to model the motion of the Super Stunter boomerang plane in the vertical plane.
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