UTF-8ConvectionProviding a mechanism for Kinetic Energy transfer (= "heat") from a hot to a cold solid object.
Your Name:__Kevin Beres__________
1. Enter your name and save this simulation with the file name "Convection_My_Name" using your full name in the title.
2. Run the simulation. Which solid object is hotter than the other? Left
3. Watch the Kinetic energy graph as you run the simulation. Does the Average Kinetic energy of the hot solid object decrease? As of now, no.
Does the Average kinetic energy of the cold object increase? As of now, no. Is there a transfer of heat occuring between them? As of now, no.
4. Are they at the same or different temperatures? Different
5. Adding something to the simulation to provide for a mechanism for transfering Average Kinetic Energy between the hot and cold object.
6. Run the simulation and watch the Average KE graphs. Do they reach equilibrium? Ye
Provide an explanation of what you did and whether it worked here: Explain your reasoning! Then Upload your simulation to the class site and send me an email with the link.
After doing my first experiment with just molecules. I decided to reduce the amount of molecules in the middle of two "Ideal" barriers. I know in real life there are not barriers that are like this, but molecules; however, the repulsive forces cannot be made with this program. The reason for doing less molecules is I will get a better transfer from the molecules on the left to the molecules on the right. This is because there are less molecules in the middle carrying that energy at a given time. I left the attractive forces there to a degree because then ideally the molecules could potentially stick to the right side after transfering all the energy to that side.
trueorg.concord.mw2d.activity.AtomContainerConvection_Challenge 2$0.mmlorg.concord.modeler.PageXYGraphorg.concord.mw2d.models.MolecularModel0Time (fs)Kinetic Energy/Particle CkKinetic Energy/Particle Wsfalse-0.11.0300350xy22045-1-1