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This simulator allows for every possible variation of collision you could want, and provides lots of different data to be displayed. So instead of constraining you with a list of instructions like usual, this week I want you to invent your own lab! Basically I want you to play around with the simulator and then provide evidence that you got something out of it. The simplest way to do this is just to simulate one of the problems from the HW. But you can do whatever you want! Try having a small thing crash into a big thing, or vice versa. Move that elasticity bar around so you can see the difference between perfectly inelastic and elastic visually. Track the kinetic energy if you'd like. Try 2D collisions if you're brave, though I'd recommend sticking with 1D. Please turn in some writing and some math describing what you did. Feel free to include screenshots. You'll receive full credit if you perform at least two different collisions and then analyze them with some detail, including some math. You can decide which data to include, and how you want to compare or contrast the two collisions you create.

User Robor
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Answer:

In this assignment, you are given the opportunity to use a collision simulator to explore different scenarios and collect data. The goal is to perform at least two different collisions and analyze them with detail, including some math. Here is a step-by-step guide on how to approach this assignment:

1. Start by exploring the collision simulator. Familiarize yourself with the controls and options available, such as adjusting the elasticity bar, selecting different objects, and tracking kinetic energy.

2. Choose two different collisions to simulate. You can either simulate one of the problems from your homework or come up with your own scenarios. For example, you can have a small object collide with a larger one or vice versa.

3. Conduct the first collision simulation. Set up the initial conditions, such as the masses and velocities of the objects involved. Run the simulation and observe the outcome. Take screenshots or record the data as needed.

4. Analyze the first collision in detail. Describe what happened during the collision. Calculate relevant quantities, such as the final velocities, momentum, and kinetic energy of the objects. Compare these values to the initial conditions to see if any changes occurred. Explain any observations or trends you notice.

5. Repeat steps 3 and 4 for the second collision. Set up a new scenario, simulate the collision, and analyze the results using the same approach as before. Compare and contrast the second collision with the first one. Look for similarities and differences in the data and outcomes.

6. Write a summary that includes both the analysis of the two collisions and the math behind it. Describe the setups, the observed outcomes, and any patterns or trends you identified. Provide calculations and equations to support your analysis. You can include screenshots or visual representations to enhance your explanation.

Remember to be creative and have fun with this assignment. The goal is to explore different collision scenarios, collect data, and analyze them using mathematical concepts. If you have any further questions or need assistance with specific parts of the assignment,

Step-by-step explanation:

User Parth Jasani
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